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Collection: Cornell University Archives Web Archive
Description: "Our research focuses on the development and application of novel optical imaging methods for basic science investigations and clinical applications. " -- from the website, 11/18/2017
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Subject: Photonics -- Research, Optical imaging -- Research, Adie, Steven, Cornell University. Department of Engineering. Nancy E. and Peter C. Meinig School of Biomedical Engineering, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01146
Collection: Cornell University Archives Web Archive
Description: "We are a research group in the Department of Chemistry and Chemical Biology at Cornell University. We use path integral and semiclassical ideas to develop approximate quantum dynamics methods, and we employ these novel methods to characterize the mechanisms of charge and energy transfer processes in the condensed phase."--taken from website 2023.09.25
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Subject: Research groups, Chemistry, Biology, Cornell University -- Research groups
Creator: Ananth Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00200
Collection: Cornell University Archives Web Archive
Description: "The ApselLab group is a research group led by Prof. Alyssa Apsel with interests broadly within the field of high performance analog and mixed signal integrated circuits and systems. Since our inception, our research has been guided by a unifying core value: Scaling of integrated circuit technology, while solving many problems, creates many other interesting problems and new research challenges at the system level and the circuit level." -- from the website, 6/13/2017
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Subject: Electical engineering -- Research, Computer engineering -- Research, Interconnects (Integrated circuit technology) -- Research, Apsel, Alyssa, Cornell University -- Research groups , Cornell University. Department of Engineering. School of Electrical and Computer Engineering
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01140
Collection: Cornell University Archives Web Archive
Description: "The Archer Group’s research is rooted in nanoscale materials. We investigate how these materials behave at the fundamental level, as well as apply them to electrochemical energy storage (batteries). The materials we study most extensively are called Nanoscale Organic Hybrid Materials (NOHMs), which are created by attaching polymers to the surfaces of nanoparticles." -- from the website, 6/12/2017
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Subject: Storage batteries -- Research, Nanoscience -- Research, Nanostructures -- Research, Cornell University -- Research groups , Archer, Lynden, Kaust-Cornell Center for Energy and Sustainability, Cornell University. Cornell Center for Materials Research, Cornell University. Department of Engineering. Robert Frederick Smith School of Chemical and Biomolecular Engineering
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01139
Collection: Cornell University Archives Web Archive
Description: "We study the interactions among structure, deformation, and mechanical properties in a wide range of materials using nanoscale mechanical testing, detailed structural analysis, and modelling and simulation." -- from the website, 6/12/2017
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Subject: Nanoscience -- Research, Atomic structure -- Research, Nanostructures -- Research, Materials science -- Research, Cornell University. Department of Engineering, Baker, Shefford P., Cornell University. Department of Materials Science and Engineering, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01138
Collection: Cornell University Archives Web Archive
Description: "Research in the Benedek group is focused on using a combination of crystal chemistry, symmetry principles and Density Functional Theory calculations to connect material properties to bonding and physical mechanisms, with a particular emphasis on the ionic and thermal transport properties of complex oxides for energy applications." -- from the website, 6/12/2017
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Subject: Transport theory -- Research, Materials science -- Research, Chemical bonding -- Research, Density functionals -- Research, Cornell University -- Research groups , Cornell University. Department of Materials Science and Engineering, Benedek, Nicole
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01132
Collection: Cornell University Archives Web Archive
Description: "We are currently working on Cretaceous and Cenozoic floras from three provinces in Patagonia, Argentina: Chubut, Río Negro, and Tierra del Fuego. Our projects include the study of floras that range from latest Cretaceous to Miocene in age. The main goal of our research is to enhance our knowledge of the evolution and early diversification of angiosperms (flowering plants) in Patagonia through the study of plant fossils. We seek to increase our understanding of the floristic composition of ancient Patagonia by determining which taxa (types of plants) are present in the paleofloras we are studying and what their nearest living relatives are."--taken from website 2023.10.09
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Subject: Biology, Cornell University -- Research groups , Plant genetics
Group: Cornell University Faculty Research and Laboratories
Creator: Gandolfo Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00147
Collection: Cornell University Archives Web Archive
Description: "The Anderson Lab investigates operational methods for more effective integration and use of renewable energy technologies...Our approach is interdisciplinary, combining engineering, economics and mathematics to better understand the interactive forces of systems and markets." -- from the website, 6/12/2017 "Enabling Sustainable Energy Transitions" -- from the website, 6/12/2017
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Subject: Renewable energy sources -- Mathematical models -- Research, Renewable energy sources -- Technological innovations -- Research, Renewable energy sources -- Economic aspects -- Research, Cornell University. Department of Biological and Environmental Engineering, Cornell University -- Research groups , Anderson, C. Lindsay
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01141
Collection: Cornell University Archives Web Archive
Description: Website for the bioengineering research group headed by Benjamin D. Cosgrove, Ph.D., at Cornell University. "We develop and utilize systems bioengineering approaches to study the signaling network alterations underlying the decline of stem cell function and tissue regeneration in aging and disease." -- from the website, 6/19/2017
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Subject: Cosgrove, Benjamin D., Tissues -- Growth -- Research, Stem cells -- Research, Cornell University -- Research groups , Biomedical engineering -- Research groups, Cornell University. Department of Engineering. Nancy E. and Peter C. Meinig School of Biomedical Engineering
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01115
Collection: Cornell University Archives Web Archive
Description: "Welcome to the Gibney Lab website! Our lab is interested in a variety of research topics that span eukaryotic cell biology to wine microbiology. Our research topics include understanding fundamental aspects of biology to collaborating with the fermented beverage industry on more applied projects. Beyond research, our lab is interested in training future generations of scientists and educating the public about the value of scientific research and knowledge (both basic and applied research)."--taken from website 2024.01.08
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Subject: Cornell University -- Faculty, Cornell University. College of Agriculture and Life Sciences, Microbiology, Wine, Cornell University -- Research groups
Creator: Gibney Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07321
Collection: Cornell University Archives Web Archive
Description: "The Lis Lab develops and uses many strategies to probe the structure of promoters and genes and the regulation of their activities in living cells. Our model is the heat shock genes, a highly-regulated set of genes that are well-suited for the investigation of inducible mRNA production. We investigate the factors that participate in the heat shock gene induction response, determine when, where, and with whom the factors act during the process of gene activation, and evaluate the functional and structural consequences of rapid inactivation of these factors. The resulting information is critical in establishing molecular models for the various steps in the transcriptional activation of genes and coupled RNA processing events."--taken from website 2023.10.09
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Subject: Molecular biology -- Research groups, Department of Molecular Biology and Genetics, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Creator: Lis Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00162
Collection: Cornell University Archives Web Archive
Description: "I am writing to inform you of LEG’s decision regarding Scholars@Cornell. When LEG approved the pilot project for beta release, it requested that a status review be done in 2018. This review is now complete and it was decided that the project will not be continued beyond the end of 2018. The pilot was a success from the technical perspective, and it generated quite a bit of enthusiasm on campus and at international conferences. Still, moving from a beta release to a production service would have required a critical mass of colleges and departments becoming contributing partners to ensure long-term fiscal sustainability. This proved elusive, and consequently the Scholars@Cornell project and CUL’s subscription to Symplectic Element will not be transitioned into an ongoing service. The faculty publication data accumulated in the system will be archived. Department administrators, as they know, will be able to access their own Scholars@Cornell data via the Web through 2019, after which time it will be moved to an offline archive."--taken from website 2023.10.16
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Subject: Research, Cornell University -- Research groups , Scholarly publishing
Creator: Scholars@Cornell
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00132
Collection: Cornell University Archives Web Archive
Description: "The Specht Lab studies the evolution and diversification of Plant Form and Function. We use traditional morphological and developmental techniques combined with molecular genetics, comparative genomics and evolutionary biology to study the natural diversity of plants and to help better understand the forces creating and sustaining this diversity. Our research incorporates elements of systematics, developmental genetics and molecular evolution to study the patterns and processes associated with plant speciation and diversification."--taken from website 2024.01.08
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Subject: Cornell University -- Faculty, Cornell University College of Agriculture and Life Sciences, Biology, Genomics, Cornell University -- Research groups , Genetics
Creator: Cornell University | College of Agriculture & Life Sciences
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07338
Collection: Cornell University Archives Web Archive
Description: "The Bonassar Group focuses on the regeneration and analysis of musculoskeletal tissues, including bone and cartilage. The approach involves a multidisciplinary strategy using techniques in biomechanics, biomaterials, cell biology, and biochemistry." -- from the website, 11/18/2017
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Subject: Biomaterials -- Research, Cytology -- Research, Biochemistry -- Research, Biomechanics -- Research, Musculoskeletal system -- Research, Bonassar, Lawrence, Biomedical engineering -- Research groups, Cornell University. Department of Biomedical Engineering, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01126
Collection: Cornell University Archives Web Archive
Description: The faculty profile website for Prof. Mark Campbell, Cornell University, Department of Engineering. "My research group works in the area of estimation theory and control for autonomous and semi-autonomous systems, with a special emphasis on robotics and aerospace applications. Specific research areas include sensor fusion and probabilistic perception, control and planning in the presence of uncertainties, human decision modeling, and human-robot interaction." -- from the website, 6/12/2017
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Subject: Estimation theory, Space robotics -- Research groups, Robotics -- Research groups, Campbell, Mark, Aerospace engineering -- Research groups, Aerospace engineering -- Study and teaching, Cornell University -- Research groups , Cornell University. Department of Engineering. Sibley School of Mechanical and Aerospace Engineering
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01122
Collection: Cornell University Archives Web Archive
Description: Website for the Advanced Multimedia Processing (AMP) Laboratory, School of Electrical and Computer Engineering, Cornell University. "At the highest level, our work is about the human, the family, and our visual interests. But under the hood, it's about understanding images represented by numbers." -- from the website, 6/13/2018
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Subject: Cornell University -- Research groups , Computer vision -- Research groups, Graphical user interfaces (Computer systems) -- Research groups, Multimedia systems -- Research groups, Bioinformatics -- Research groups, Biometry -- Research groups, Cornell University. Department of Engineering. School of Electrical and Computer Engineering, Chen, Tsuhan
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01120
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Center for Innovative Publishing., Cornell University -- Student publications, Cornell University -- Faculty, Cornell University -- Research groups , Sustainability
Creator: CU Library Initiatives in Publishing
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00266
Collection: Cornell University Archives Web Archive
Description: Website for the chemical and biomedical engineering research group headed by Dr. Paulette Clancy at Cornell University. "The Clancy group uses computational approaches to mathematically model and simulate the atomistic and molecular behavior of materials, especially semiconductors." -- from the website, 6/12/2017
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Subject: Materials science -- Mathematics, Biochemistry -- Mathematical models -- Research groups, Biochemistry -- Research groups, Chemical engineering -- Research groups, Cornell University. Department of Engineering. Robert Frederick Smith School of Chemical and Biomolecular Engineering, Clancy, Paulette, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01117
Collection: Cornell University Archives Web Archive
Description: "Our research lies at the intersection of circuit design, machine learning, and neuroscience, and our mission is to develop new diagnostic and therapeutic devices for medication-resistant neurological disorders including epilepsy, alzheimer’s, chronic migraine, and parkinson’s. In particular, we use advanced circuit design techniques to build ultra-low-power and miniaturized system-on-chips that can record neural activity, detect brain dysfunction in real time, and respond by therapeutic intervention such as neuromoluation. We use machine learning techniques to enable accurate and reliable detection of disease-related biomarkers."--taken from website 2023.10.09
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Subject: Cornell University. Department of Engineering. School of Electrical and Computer Engineering, Machine learning -- Research, Neuroscience, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Creator: Cornell Neuroengineering Laboratory
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00151
Collection: Cornell University Archives Web Archive
Description: "Dr. Gao's research is focused on biomechanics of musculoskeletal soft tissues, including skeletal muscles, ligaments and tendons. Soft tissues have similar ultrastructures with engineering materials, such as polymers." -- 1/6/2017
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Subject: Cornell University. Department of Biomedical Engineering, Cytology -- Research, Biochemistry -- Research, Musculoskeletal system -- Research, Gao, Yingxin, Biomechanics -- Research, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01091
Collection: Cornell University Archives Web Archive
Description: "Our multi-disciplinary group of biomedical engineers, stem cell biologists, and systems biologists is broadly interested in understanding how stem cells use the integrative action of their regulatory circuitry to interpret and balance diverse streams of microenvironmental “information”. We utilize mouse model systems that exhibit aging-related declines in regenerative capacity, including skeletal muscle, liver, and hematopoietic tissues."--taken from website 2023.11.06
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Subject: Cornell University -- Research groups , Biomedical Engineering, Biology, Stem cells -- Research, Cornell University. Department of Engineering. Nancy E. and Peter C. Meinig School of Biomedical Engineering
Group: Cornell University Faculty Research and Laboratories
Creator: Cornell University
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00154
Collection: Cornell University Archives Web Archive
Description: "We are a biomedical and single-cell genomics lab in the biomedical engineering department of Cornell University (Ithaca, NY). Our mission is to develop novel measurement principles in molecular diagnostics and single-cell biology. Our research brings approaches from biophysics and genomics to biomedicine. Most of our work exploits next-generation DNA sequencing." -- from the website, 6/12/2017
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Subject: Cornell University -- Research groups , De Vlaminck, Iwijn, Nucleotide sequence -- Research, Genomics -- Research groups, Biomedical engineering -- Research groups, Cornell University. Department of Engineering. Nancy E. and Peter C. Meinig School of Biomedical Engineering
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01110
Collection: Cornell University Archives Web Archive
Description: "Our research focuses on the synthesis, characterization and potential applications of new solid state materials. Particularly, we have a robust and growing focus on developing new materials for fuel cell technologies, as well as a continuing program in the chemistry of solid state nitrides and in thermoelectric materials." -- from the website, 6/12/2017
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Subject: Cornell University -- Research groups , Cornell University -- Faculty, Cornell University. Department of Chemistry, Thermoelectric materials -- Research, Solid state chemistry -- Nitrides -- Research, Fuel cells -- Research, Solid state chemistry -- Research, Mutolo, Paul, DiSalvo, Francis Joseph
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01105
Collection: Cornell University Archives Web Archive
Description: "Research in the DiStasio group focuses on development, implementation, and application of novel methodologies that extend the frontiers of electronic structure theory in complex condense-phase environments. By utilizing the computational techniques of quantum and statistical mechanics, the DiStasio group seeks to address challenging problems in theoretical chemistry and further our understanding of fundamental systems and processes of importance throughout all disciplines of chemistry, ranging from organic/inorganic chemistry (i.e., catalyst design, solvation/solvent effects) to biochemistry (i.e., stability, structure, and function of proteins, enzymes, and DNA/RNA, drug discovery) and materials science (i.e., molecular crystal polymorphism, forward and inverse design of novel materials)."--taken from website 2023.09.25
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Subject: Research groups, Mechanics, Chemistry, Materials science -- Research, Biochemistry -- Research groups, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Creator: DiStasio Research Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00193
Collection: Cornell University Archives Web Archive
Description: "Our research program concerns studies in heterogeneous catalysis and advanced materials to determine the molecular basis for macroscopic effects such as chemical, electrical, and mechanical properties. The investigations involve spectroscopic characterization with nuclear magnetic resonance (NMR) spectroscopy as the primary tool, complemented with established methods, notably infra-red spectroscopy and mass spectrometry." -- from the website, 6/13/2017 The Cornell University faculty profile page for T. Michael Duncan, Associate Professor of Chemical and Biomolecular Engineering.
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Subject: Cornell University -- Faculty, Cornell University -- Research groups , Cornell University. Department of Engineering. Robert Frederick Smith School of Chemical and Biomolecular Engineering, Chemical engineering -- Research groups, Biochemistry -- Research groups, Duncan, T. Michael
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01103
Collection: Cornell University Archives Web Archive
Description: "Synthesizing advanced polymeric materials with well-defined, complex structures is a grand challenge in polymer chemistry. In the Fors group, research focuses on accessing such materials through the utilization of external stimuli (e.g. light, electricity, or chemical additives) to gain spatiotemporal control over polymer initiation and termination. We have developed a range of externally controlled polymerizations, including photochemically/electrochemically/chemically controlled cationic RAFT, photochemically controlled hydrogen atom transfer radical RAFT, and electrochemically/chemically controlled ring-opening polymerizations. Notably, we have leveraged the spatiotemporal control and monomer selectivities offered by these methods to synthesize advanced materials, such as crosslinked polymer thin films with tunable mechanical properties or higher order multiblock copolymers, simply by controlling the stimulus applied to the reaction. Ongoing research in our group works to develop new synthetic and catalytic strategies for externally controlled polymerizations and to extend our research to more complex structures and architectures."--taken from website 2023.09.25
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Subject: Research groups, Cornell University -- Research groups , Chemistry, Polymer chemistry
Group: Cornell University Faculty Research and Laboratories
Creator: Fors Research Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00186
Collection: Cornell University Archives Web Archive
Description: "Exploring nanostructured materials with properties by design inspired by applications in emerging sustainable energy technologies." -- from the website 6/12/2017
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Subject: Hanrath, Tobias, Nanostructured materials -- Research, Renewable energy sources -- Research, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01085
Collection: Cornell University Archives Web Archive
Description: "The goal of our research is to use atomic-scale images of surfaces to quantitatively understand and control their reactivity. We use scanning tunneling microscopy (STM), surface spectroscopies, as well as density functional theory (DFT) and Monte Carlo simulations to understand and control chemical reactivity at the nanoscale. Much of our current research is aimed at developing a new surface-science approach to understanding sustainable nanocatalysis and photocatalysis on earth-abundant metal oxides under technologically relevant conditions. This research probes catalytically active sites with atomic-scale spatial resolution and submonolayer spectroscopic sensitivity — studies that have been previously infeasible due to technical limitations. Although TiO2 is our current focus, our goal is to use these techniques on a much wider variety of sustainable metal oxide nanocatalysts, such as oxygen evolution catalysts, envioronmental remediation photocatalyst, and electroactive materials for battery applications."--taken from website 2023.09.25
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Subject: Chemistry, Cornell University -- Research groups , Research groups, Cornell University. Department of Chemistry and Chemical Biology, Nanoscience -- Research
Group: Cornell University Faculty Research and Laboratories
Creator: Hines Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00188
Collection: Cornell University Archives Web Archive
Description: "Our research looks at bonding in all types of chemical systems–discrete molecules or extended solids, organic or inorganic. While our methods rest on detailed, reliable calculations, our interests lie more in building qualitative understanding than in producing high-precision computational data. Through our analysis of specific bonding puzzles, we hope to provide a conceptual framework that will aid experimentalists in their attempts to synthesize new compounds with unusual structures and interesting properties."--taken from website 2023.11.06
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Subject: Cornell University -- Research groups , Chemical bonding -- Research, Chemistry
Creator: Hoffmann Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00198
Collection: Cornell University Archives Web Archive
Description: "At Cornell, we aim to (a) integrate immunology into existing biomaterials research programs to develop immune-modulating biomaterials, assisted by a fundamental understanding at the molecular and cellular levels and artificial intelligence-directed materials discovery; (b) translate our biomaterials technologies into medical and engineering practice in nanomedicine /drug delivery/ cancer immune therapeutics, regenerative medicine/tissue engineering/stem cells, medical devices and marine coatings. Our group has close collaborations with researchers at Weill Cornell Medicine, Memorial Sloan Kettering, Cornell College of Veterinary Medicine, Cornell Center for Immunology and several academic departments at Cornell."--taken from website 2024.01.22
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Subject: Cornell University -- Faculty, Cornell Engineering, Cornell University -- Research groups , Immunology, Biomaterials -- Research
Creator: Jiang Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07326
Collection: Cornell University Archives Web Archive
Description: "We aim to understand the morphogenesis, homeostasis, and disease pathogenesis of lymphatic vessels and blood vessels and their microenvironments to provide new strategies for regenerative medicine and treatment of immune diseases, cancer, and edema. To this end, we are working to develop novel three-dimensional (3D) organ-on-chip systems, cellular and molecular tools, and in vivo models to better understand the mechanisms by which cells regulate and respond to biological and mechanical cues."--taken from website 2023.10.09
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Subject: Medicine, Cornell University -- Research groups , Cornell Engineering, Cornell University. Department of Engineering. Nancy E. and Peter C. Meinig School of Biomedical Engineering
Group: Cornell University Faculty Research and Laboratories
Creator: Lee Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00157
Collection: Cornell University Archives Web Archive
Description: "There are two major thrusts to the Marohn group's research. The first is understanding circuits and solar cells that are made from plastics. Here we use custom-built scanned probe microscopes to record 100 nm resolution maps of electrostatic potential, capacitance, photo-generation of charge, and electric field fluctuations in working organic devices. The second thrust of the group's research is developing approaches for imaging single molecules such as, for example, an individual membrane protein. Here the approach is to push magnetic resonance imaging to nanometer resolution by detecting magnetic resonance mechanically, using tiny silicon cantilevers. Please explore our Research section for details on each project."--taken from website 2023.09.25
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Subject: Research groups, Cornell University. Department of Chemistry and Chemical Biology, Cornell University -- Research groups , Chemistry, Physics, Biology, Materials science -- Research
Group: Cornell University Faculty Research and Laboratories
Creator: Marohn Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00183
Collection: Cornell University Archives Web Archive
Description: "Welcome to the Muller lab! Our applied physics electron microscopy research at Cornell University is focused on understanding the behavior of materials and devices at the atomic scale, with an emphasis on sustainable energy applications. Using the highest resolution electron microscopes in the world, placed in specially-designed and environmentally isolated rooms, we are able to explore the chemistry, electronic structure and bonding inside objects as diverse as transistors, fuel cells, and two-dimensional superconductors. All of these systems are made up of different materials, and where they join at the atomic scale, the boundary conditions on the quantum mechanical wavefunctions force very different behavior from what might be expected of the bulk materials. At these boundaries, where everyday intuition breaks down, we are searching for new and unexpected phases and physics. The impact of this research on devices, both large and small, could be significant."--taken from website 2023.10.02
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Subject: Cornell Engineering, Physics, Electron microscopy, Cornell University -- Research groups , Cornell University. Department of Engineering. School of Applied and Engineering Physics
Group: Cornell University Faculty Research and Laboratories
Creator: Cornell University
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00165
Collection: Cornell University Archives Web Archive
Description: "In the OxideMEMS Lab we explore inter-domain coupling in Opto-mechanical, Spin-Acoustic and Atomic-MEMS devices. We strive to leverage our understanding of these coupled systems to design inertial measurement units, clocks, magnetic field sensors, and field-programmable microwave sub-systems." -- from the website, 6/12/2015
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Subject: Microelectromechanical systems -- Research, Bhave, Sunil, Cornell University. Department of Engineering. School of Electrical and Computer Engineering, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01131
Collection: Cornell University Archives Web Archive
Description: "The Brock Group's primary research focus is using x-ray diffraction techniques to probe specific processes that occur in the solid state of materials. Specifically we focus on the kinetic processes occurring during Pulsed Laser Deposition (PLD) of complex oxide thin films. The Brock Group is one of the primary users of the G3 Hutch at the Cornell High Energy Synchrotron Source (CHESS)..." -- from the website, 6/14/2017
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Subject: Cornell University -- Research groups , Cornell University. Department of Engineering. School of Applied and Engineering Physics, Brock, Joel D., X-rays -- Diffraction -- Research, Solid state physics -- Research, Pulsed laser deposition -- Research, Synchrotron radiation -- Research
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01124
Collection: Cornell University Archives Web Archive
Description: "I am an assistant professor in Electrical and Computer Engineering, and a field member in Computer Science at Cornell University." -- from the website, 4/26/2017
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Subject: Cornell University. Department of Computer Science, Machine learning -- Research, Information theory -- Research, Computer engineering -- Research, Electrical engineering -- Research, Cornell University. Department of Engineering. School of Electrical and Computer Engineering, Acharya, Jayadev, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01147
Collection: Cornell University Archives Web Archive
Description: "Professor Chiang's research effort is focused on theoretical developments and practical applications. Particular areas include nonlinear system theory, nonlinear computations and their practical applications to electric circuits, systems, signals and images." -- from the website, 6/17/2017
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Subject: Cornell University -- Research groups , Nonlinear theories -- Research, Nonlinear systems -- Research, Cornell University -- Faculty, Electric power system stability -- Research, Cornell University. Department of Engineering. School of Electrical and Computer Engineering, Chiang, Hsiao-Dong
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01118
Collection: Cornell University Archives Web Archive
Description: "The Wireless Networks Laboratory (WNL) at Cornell University is engaged in research and education in the area of wireless communication and networking protocols and algorithms, as to provide ubiquitous access to wired and wireless resources for mobile and multimedia users. The emphasis in our research has been on the ad-hoc and sensor networking technologies, self-reconfigurable systems, power-efficient, and secure communication protocols. Additionally, WNL has been exploring a number of other research directions, such as application of communication and networking technologies to solve biological problems, designing of biologically-inspired protocols, and delay-tolerant communication. Our research is sponsored by governmental agencies, such as the National Science Foundation, the Air Force Office of Scientific Research (AFOSR), and the Office of Naval Research (ONR), and by industrial companies, such as Nortel Networks, Boeing, Bell Laboratories, and Scientific Research Corporation - we are thankful for their support of our work!"--taken from website 2023.10.02
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Subject: Wireless communication systems, Cornell University -- Research groups , Internet--Study and teaching
Group: Cornell University Faculty Research and Laboratories
Creator: Wireless Networks Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00167
Collection: Cornell University Archives Web Archive
Description: "My overall professional goal is to contribute to both research and learning in the theory and application of stochastic simulation and applied probability, with emphasis on the interface between these areas and optimization." -- from the website, 10/20/2017
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Subject: Cornell University -- Research groups , Probability -- Research, Operations research, Cornell University. Department of Engineering. School of Operations Research and Information Engineering, Henderson, Shane G.
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01084
Collection: Cornell University Archives Web Archive
Description: "My research interests include machine learning, high-dimensional and robust statistics, and optimization. Some of the topics that I am interested in are: sparse recovery and compressed sensing, robust matrix completion and PCA, graph clustering and community detection in networks, mixture problems, large-scale learning and optimization, computational and statstistical tradeoffs, and non-convex statistical algorithms." -- from the website, 10/20/2017
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Subject: Information storage and retrieval systems -- Engineering -- Research groups, Operations research -- Research groups, Cornell University -- Research groups , Cornell University -- Faculty, Cornell University. Department of Engineering. School of Operations Research and Information Engineering, Chen, Yudong
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01119
Collection: Cornell University Archives Web Archive
Description: "The Putnam Lab works at the interface between biology and chemistry to develop tools for biomedical engineering. Current research in the group is focused in three main areas: biomimetic polymers, controlled drug delivery, and vaccine development. Click on each area to find out more!"--taken from website 2023.10.09
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Subject: Cornell University. Department of Engineering. Nancy E. and Peter C. Meinig School of Biomedical Engineering, Biomedical Engineering, Biology, Chemistry, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Creator: Putnam Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00153
Collection: Cornell University Archives Web Archive
Description: "Our current research involves studying electron spin dynamics in thin film magnetic nanostructures. Much of our work focuses on the spin transfer torque (STT) and on the STT-induced magnetization domain reversal and high frequency (GHz) magnetization dynamics of these nanomagnets." -- from the website, 6/13/2017
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Subject: Buhrman, Robert A., Cornell University -- Research groups , Nanostructures -- Research, Nanoscience -- Research, Magnetization -- Research
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01123
Collection: Cornell University Archives Web Archive
Description: "The McCouch Lab investigates natural variation in the genus Oryza, focusing on how it evolved, how it is distributed in both domesticated and wild Oryza species, how it conditions complex phenotypes and how it can be efficiently utilized in rice improvement. We have pioneered studies demonstrating that low-yielding wild and exotic Oryza species harbor genes and quantitative trait loci (QTL) that can be used to enhance the performance of modern, high-yielding rice cultivars. This work is done in collaboration with scientists and breeders in Asia, Africa, North and South America."--taken from website 2023.10.02
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Subject: Cornell University -- Research groups , Rice--Research, Cornell University. College of Agriculture and Life Sciences, Agriculture -- Research
Group: Cornell University Faculty Research and Laboratories
Creator: Susan R. McCouch Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00166
Collection: Cornell University Archives Web Archive
Description: "My research aims to build NLP systems that are safe, fast, and controllable. We are interested primarily in tasks that involve text generation such as machine translation, document summarization, and data-to-text generation. Methodologically, we study data-driven probabilistic methods that combine deep-learning based models with probabilistic controls. I am also interested in open-source NLP and deep learning, and develop projects to make deep learning systems safer, more clear, and easier to use. I work part-time at Hugging Face and like to release various software projects to support NLP and DL research."--taken from website 2024.01.22
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Subject: Cornell University -- Faculty, Natural language processing (Computer science), Cornell Tech - Jacobs Technion - Cornell Institute, Cornell University -- Research groups
Creator: Alexander Rush
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07287
Collection: Cornell University Archives Web Archive
Description: "The focus of my group’s research is investigating and perfecting the properties of oxide materials for electronic uses. To do this, we grow oxide thin films on single crystal substrates of closely related substances. The single crystal substrate provides a structural template for the thin films that we grow. The films follow this atomic template and are thus said to be epitaxial (inheriting their crystalline arrangement from the underlying substrate). Our focus on oxides is due to the tremendous promise that these materials hold for electrical applications. Oxides exhibit an unparalleled variety of electronic properties. Insulating, semiconducting, and even superconducting oxides all exist within the set of structurally compatible oxides known as perovskites. This structurally related family also includes oxides that are magnetic, ferroelectric, or even both at the same time. In short, this family of oxides contains the full spectrum of electronic properties. A major challenge, however, is to prepare these materials with sufficient quality and integrate them with adequate control so that these properties can be fully utilized in electronic devices. This is our research goal."--taken from website 2023.10.02
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Subject: Cornell Engineering, Cornell University. College of Engineering, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Creator: Darell Schlom
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00168
Collection: Cornell University Archives Web Archive
Description: "Our research effort centers on creating functional “living” immune tissues as organoids or on-chip to recapitulate selective aspects of lymph nodes. The engineered tissues communicate dynamically with immune cells and using engineered approaches we are able to manipulate cell’s behavior. Using engineering principles, we study how various components of lymphoid tissues interact with immune cells, their tumors, and how immune cells undergo decision making at the cellular, molecular, and epigenetic (chromatin) levels to protect humans from infectious threats. We use these discoveries to develop new immune therapeutics. Our particular interest is in germinal center B cells that make antibodies and T cells that communicate with B cells. We are further interested in understanding how disruption of normal immune processes results in the transformation of “protector” immune cells to immune neoplasms."--taken from website 2023.10.09
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Subject: Cornell University -- Research groups , Immunology, Bioengineering, Medicine
Group: Cornell University Faculty Research and Laboratories
Creator: Singh Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00152
Collection: Cornell University Archives Web Archive
Description: "The Vacanti Lab is in the Division of Nutritional Sciences and trains students in the graduate fields of Nutrition and Biomedical Engineering at Cornell University. Our work is at the interface of molecular nutrition, metabolic engineering, systems biology, and bioinformatics. We study metabolism on a systems level in the context of understanding fundamental metabolic regulation and adaptations accompanying the onset of chronic disease or resistance to therapy. In addition to training our own Ph.D. students, we are committed to making the analyses of large molecular data sets a common practice in traditional approaches to studying molecular nutrition through our course in the College of Human Ecology: Big Data in Molecular Nutrition: Proteins, Transcripts, and Metabolism."--taken from website 2023.10.09
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Subject: Biomedical Engineering, Nutrition, Cornell University -- Research groups , Bioinformatics -- Research groups
Group: Cornell University Faculty Research and Laboratories
Creator: Vacanti Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00144
Collection: Cornell University Archives Web Archive
Description: "We focus on two areas: musculoskeletal adaptation and bone biomechanics. Our overall goal is to improve musculoskeletal health by understanding and treating diseases such as osteoporosis and osteoarthritisIn musculoskeletal mechanobiology we are interested to understand how bone, cartilage and other joint tissues adapt to the mechanical loading they experience in vivo. In the bone biomechanics area we are interested in the factors that determine bone strength and the relationship of whole bone strength to composition and structure of bone tissue at the micro- and nanoscale."--taken from website 2023.10.09
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Subject: Biomechanics -- Research, Cornell University -- Research groups , Musculoskeletal system -- Research
Group: Cornell University Faculty Research and Laboratories
Creator: van der Meulen Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00161
Collection: Cornell University Archives Web Archive
Description: "Our group’s research focuses on Computer Vision, Machine Learning, and Human-in-the-Loop Computing with applications ranging from image based geolocalization to assistive technology for the visually impaired. Much of our work involves humans and machines working together to solve challenging problems involving fine grained categorization and perceptual organization." -- from the website, 6/12/2017
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Subject: Cornell University. Cornell Tech. Joan & Irwin Jacobs Technion-Cornell Institute, Cornell University. Department of Computer Science, Machine learning -- Research, Computer vision -- Research, Cornell University -- Research groups , Belongie, Serge
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01133
Collection: Cornell University Archives Web Archive
Description: "Doerschuk's research group develops, validates, and uses mathematical models of primarily biological and medical systems, mostly with the goal of understanding experimental data." -- from the website, 2/13/2018
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Subject: Biomedical engineering -- Mathematical models, Biomedical engineering -- Research groups, Cornell University -- Research groups , Cornell University -- Faculty, Cornell University. Department of Engineering. School of Electrical and Computer Engineering, Cornell University. Department of Biomedical Engineering, Doerschuk, Peter.
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01104
Collection: Cornell University Archives Web Archive
Description: Website for the research group led by Peter J. Diamessis, Associate Professor. "Our primary objective is to investigate, using numerical simulations, the physics of the interplay between turbulence and internal gravity waves in both mid-water and near the bottom/top and lateral boundaries of the ocean and lakes. At the foundation of these computational studies lie in-house-designed high-resolution/high-accuracy element-based numerical methods." -- from the website, 6/14/2017
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Subject: Diamessis, Peter J., Cornell University -- Research groups , Fluid dynamics -- Mathematical models, Cornell University. Department of Engineering. School of Civil and Environmental Engineering, Fluid dynamics -- Research
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01106
Collection: Cornell University Archives Web Archive
Description: "My interests are in programming methodology, in particular the formal development of programs, and in related areas such as programming languages, programming language semantics, and logic. I am as interested in the teaching of these topics as I am in further research in them. In fact, understanding how logic and formalism can be taught as a useful tool at the freshman/sophomore college level has been an overriding concern of mine in the past twenty years." -- from the website, 6/18/2017
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Subject: Logic programming -- Research, Programming languages (Electronic computers) -- Semantics -- Research, Computer programming -- Methodology -- Research, Computer science -- Research, Gries, David, Cornell University. Department of Computer Science, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01088
Collection: Cornell University Archives Web Archive
Description: "My research interests span computer graphics, computer vision, deep learning, and human perception..." -- from the website, 6/19/2017
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Subject: User interfaces (Computer systems) -- Research, Computer graphics -- Research, Computer vision -- Research, Cornell University -- Research groups , Cornell University. Department of Computer Science. Program of Computer Graphics, Bala, Kavita
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01137
Collection: Cornell University Archives Web Archive
Description: "In the Soil Biogeochemistry & Soil Fertility Management Program, we work in a broad range of ecosystems spanning scales from nano-scale observations in soil microaggregates to global carbon cycles. We are engaged in advancing new tools for the investigation of soils such as synchrotron-based spectroscopy as well as in studying soil carbon dynamics and implications for landuse."--taken from website 2023.10.09
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Subject: Soil management, Cornell University -- Research groups , Biogeochemistry, Cornell University. College of Agriculture and Life Sciences
Group: Cornell University Faculty Research and Laboratories
Creator: Soil Biogeochemistry & Soil Fertility Management Program
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00169
Collection: Cornell University Archives Web Archive
Description: "Cheng Zhang is an Assistant Professor in Computing and Information Science at Cornell University, where he directs the Smart Computer Interfaces for Future Interaction (SciFi) Lab. He received his Ph.D. in computer science at Ubicomp Lab at the Georgia Institute of Technology, where he was advised by Dr. Gregory Abowd (CS) and Dr.Omer Inan(ECE). His research interests are ubiquitous computing and human-computer interaction(HCI). More specifically, his research examines how to solicit information on and around the human body to address real-world challenges in various application areas, such as interaction, health sensing, and activity recognition."--taken from website 2024.01.29
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Subject: Cornell University -- Faculty, Computer science -- Research, Information science--Research, Cornell University -- Research groups
Creator: Cheng Zhang
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07222
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Danko Lab, James A. Baker Institute for Animal Health
Identifier: https://hdl.handle.net/1813.001/wa00533
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , College of Engineering, Cornell University, DeLisa Research Group
Identifier: https://hdl.handle.net/1813.001/wa00946
Collection: Cornell University Archives Web Archive
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Subject: Cornell University -- Research groups , College of Engineering, Cornell University, Zipfel Lab, Biology, Bioengineering, Biomedical engineering -- Research, Biochemistry -- Research, Chemical engineering, Research groups
Creator: Zipfel Laboratory
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00829
Collection: Cornell University Archives Web Archive
Description: "While research in the Howarth-Marino lab is strongly interdisciplinary, our major strength is in biogeochemistry. Biogeochemistry is the scientific discipline that deals with the biological controls on environmental chemistry and with the geochemical controls on the structure and function of ecosystems. The discipline has a long history of combining theory with practical application, and biogeochemists have played a central role in our understanding of global change and large scale pollution issues such as acid rain and coastal nitrogen pollution."--taken from website 2023.10.09
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Subject: Biogeochemistry, Cornell University -- Research groups , Earth sciences -- Research groups
Group: Cornell University Faculty Research and Laboratories
Creator: Howarth-Marino Lab Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00170
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Sibley School of Mechanical and Aerospace Engineering, Erickson Lab
Identifier: https://hdl.handle.net/1813.001/wa00989
Collection: Cornell University Archives Web Archive
Description: "...we emphasize the links between sedimentary processes and the biosphere, lessons that can be learned from the fossil record about the capacity of the biosphere to adapt to ongoing environmental change, chemical exchanges that are mediated by life, solving the problems of sustainable energy supply, as well as links between surface deformation, topography, and climate." -- from the website, 6/13/2018
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Subject: Cornell University -- Research groups , Paleontology -- Research groups, Atmospheric physics -- Research groups, Derry, Louis, Cisne, John, Allmon, Warren, Cornell University. Department of Earth and Atmospheric Sciences, Earth sciences -- Research groups, Ross, Robert, Riha, Susan, Pritchard, Matthew, Jordan, Terry, Isacks, Bryan, Dietl, Greg
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01108
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Sibley School of Mechanical and Aerospace Engineering, Hernandez Research Group
Identifier: https://hdl.handle.net/1813.001/wa00987
Collection: Cornell University Archives Web Archive
Description: The website for the Craighead Research Group, led by Prof. Harold G. Craighead, Cornell University, Department of Engineering.
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Subject: Nanoscience -- Research, Nanofluids -- Research, Microfluidics -- Research, Nanoelectromechanical systems -- Research, Microelectromechanical systems -- Research, Biosensors -- Research, Surfaces (Physics) -- Research, Cornell University -- Research groups , Cornell University. Department of Engineering. School of Applied and Engineering Physics, Craighead, Harold G.
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01114
Collection: Cornell University Archives Web Archive
Description: "We have recently redesigned the College of Human Ecology website and this is the "Page Not Found" page. Please continue your visit by using the search box in the header or try one of the main navigation links."
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Subject: Cornell University -- Research groups , Cornell Institute for Women in Science (CIWS), Human Development Research, College of Human Ecology
Creator: College of Human Ecology
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00783
Collection: Cornell University Archives Web Archive
Description: English
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Subject: New York State College of Human Ecology, Cornell University -- Research groups , Human Development Research
Identifier: https://hdl.handle.net/1813.001/wa00824
Collection: Cornell University Archives Web Archive
Description: "The Business Simulation Lab facilitates in-lab and online behavioral research to study complex decision-making, advance problem solving and model development. Historically, the lab mainly supported professors and PhD students within the Samuel Curtis Johnson Graduate School of Management. Since 2016, the lab has also served researchers within the Cornell SC Johnson College of Business. The lab offers opportunities for students, staff, and Ithaca community members to participate in studies. The Lab is available to assist in the administration of computer-based experiments, focus groups, interviews, events, and more. It does not mandate a minimum or average pay and allows all types of studies granted IRB approval."--taken from website 2023.11.06
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Subject: Cornell University -- Research groups , Debra Paget and Jeffrey Berg Business Simulation Laboratory, Cornell University. School of Business and Public Administration, Business education, Cornell University. Samuel Curtis Johnson Graduate School of Management
Group: Cornell University Faculty Research and Laboratories
Creator: Cornell SC Johnson College of Business
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa01158
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , College of Engineering, Cornell University, Kirby Research Group
Identifier: https://hdl.handle.net/1813.001/wa00984
Collection: Cornell University Archives Web Archive
Description: "The Social Perception and Intergroup Inequality lab is housed in the Psychology Department of Cornell University (PI: Amy Krosch). We aim to understand the persistent and wide-spread inequalities that exist between groups in America. We investigate social and economic factors that amplify discrimination, and the basic social-cognitive, perceptual, and emotional processes through which the goals and motivations of decision makers influence their behavior toward members of their own and other groups. Our lab takes a multilevel approach to research, integrating ideas and methods from experimental social psychology, cognitive neuroscience, behavioral decision-making, and psychophysics."--taken from website 2024.02.05
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Subject: Cornell University -- Faculty, Cornell University -- Research groups , Cornell University. Department of Psychology, Psychology, Discrimination, Social justice
Creator: Amy Krosch
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07241
Collection: Cornell University Archives Web Archive
Description: "Welcome to the Lab of Atomic and Solid State Physics! Since 1954, our faculty have been leading the way in the fields of condensed matter, biological physics, and optics. Together with a dynamic group of graduate students and researchers, we are evolving new methods and deepening our fundamental understanding of the world."
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Subject: Cornell University -- Research groups , Lab for Atomic and Solid State Physics, Cornell University. Department of Physics, Science
Creator: Laboratory of Atomic and Solid State Physics
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00704
Collection: Cornell University Archives Web Archive
Description: "CLASSE studies beams and accelerators, photon science, particle physics and the early universe, serving students, the public and scientists from Cornell and around the world."
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Subject: Cornell University -- Research groups , Cornell Laboratory for Accelerator-based Sciences and Education — CLASSE, Science, Photonics -- Research
Creator: Cornell Laboratory for Accelerator-Based Sciences and Education
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00705
Collection: Cornell University Archives Web Archive
Description: "As a new Assistant Professor in the Department of Neurobiology and Behavior at Cornell, [Jesse Goldberg] is building a neurophysiology lab to study basal ganglia function in freely moving animals, including songbirds, engaged in experimentally controlled trial and error learning." -- from the website, 6/12/2017
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Subject: Cornell University. College of Arts and Sciences. Department of Neurobiology and Behavior, Cornell University. College of Agriculture and Life Sciences. Department of Neurobiology and Behavior, Learning -- Research, Neurophysiology -- Research, Cornell University -- Research groups , Motor learning -- Research, Goldberg, Jesse H., Computational neuroscience -- Research
Group: Cornell University Faculty Research and Laboratories
Language: English
Identifier: https://hdl.handle.net/1813.001/wa01089
Collection: Cornell University Archives Web Archive
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Subject: Cornell University -- Research groups , Northeast Regional Climate Center NRCC, Climatic changes, New York (State), Environmentalism
Creator: Northeast Regional Climate Center
Language: English
Coverage: Northeastern United States
Identifier: https://hdl.handle.net/1813.001/wa00818
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Cornell University. Department of Computer Science, PRL Project, Computer science -- Mathematics
Creator: Cornell University Department of Computer Science
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00980
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Chang Lab, Cornell University. College of Veterinary Medicine. Department of Microbiology and Immunology
Identifier: https://hdl.handle.net/1813.001/wa00666
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Schimenti Lab, Cornell University. College of Veterinary Medicine. Department of Biomedical Sciences
Identifier: https://hdl.handle.net/1813.001/wa00665
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , College of Engineering, Cornell University, Stroock Group
Identifier: https://hdl.handle.net/1813.001/wa00970
Collection: Cornell University Archives Web Archive
Description: "The lab provides a wide range of technical services to the department and external research organizations on- and off-campus in immunohistochemical (IHC) techniques including immunoperoxidase and immunofluorescence IHC, in situ hybridization, and TUNEL in a variety of species of fixed / frozen tissue, and cultured cells. The lab also provides services for preparation and cryosectioning of frozen tissues."
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Subject: Cornell University -- Research groups , Immunopathology Research and Development Laboratory, Cornell University. College of Veterinary Medicine, Veterinary Medicine
Creator: Cornell University College of Veterinary Medicine
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00707
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Van De Walle Lab, Cornell University. College of Veterinary Medicine
Identifier: https://hdl.handle.net/1813.001/wa00654
Collection: Cornell University Archives Web Archive
Description: "The College of Veterinary Medicine at Cornell University has an active program that focuses on aquatic animal health. The Aquatic Animal Health Program is located within the Department of Microbiology and Immunology. The overall objectives of the program are to provide research, service and teaching functions, with an emphasis on economically important issues in fish health."
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Subject: Cornell University -- Research groups , Aquatic Animal Health Program, Cornell University. College of Veterinary Medicine, Microbiology, Veterinary Medicine
Creator: Cornell University College of Veterinary Medicine
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00746
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Cornell University. School of Applied and Engineering Physics, Xu Research Group
Identifier: https://hdl.handle.net/1813.001/wa00803
Collection: Cornell University Archives Web Archive
Description: "Animals make state-dependent decisions by integrating sensory cues and internal motivational drives in the nervous system. Our lab is specifically interested in understanding how state dependent decisions are regulated. We use genetically tractable model organisms, the fly (Drosophila melanogaster) and house mice (Mus musculus), to understand the fundamental principles of how motivational states regulate food intake decisions on the level of molecules, cells, and circuits. Our lab uses techniques ranging from high resolution quantitative measurements of behavior, multiphoton imaging, neural tracing, and transcriptomics to investigate how physiological states such as food deprivation impact neural activity and gene expression in the brain."--taken from website 2024.02.05
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Subject: Cornell University -- Faculty, Cornell University -- Research groups , Neuroscience, Cornell University. College of Agriculture and Life Sciences. Department of Neurobiology and Behavior, Decision making -- Research
Creator: Yapici Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07311
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Yu Lab, Cornell University. Department of Biological Statistics and Computational Biology
Identifier: https://hdl.handle.net/1813.001/wa00385
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Zhang Research Group, College of Engineering, Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00382
Collection: Cornell University Archives Web Archive
Description: "The Abruña group performs cutting-edge, interdisciplinary research to address problems of electrochemical interest, from fundamental studies of battery and fuel cell systems to molecular electronics. We employ standard electrochemical techniques in addition to X-ray methods, scanned probe microscopies (STM, SECM), NMR, nanoscale fabrication, electron microscopy (SEM, TEM), DEMS, and a variety of spectroscopic techniques (UV-vis, IR, Raman). Our group also synthesizes novel, tailored inorganic complexes and organic battery materials to drive discovery of new chemical and electrochemical properties."--taken from website 2023.09.25
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Subject: Research groups, Cornell University -- Research groups , Chemistry, Biology, Cornell University. Department of Chemistry and Chemical Biology, Electrochemistry--Research
Group: Cornell University Faculty Research and Laboratories
Creator: Abruña Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00189
Collection: Cornell University Archives Web Archive
Description: "Welcome to the Ando lab! We study how enzymes work by using a combination of biophysical and biochemical techniques. We are most interested in studying proteins in motion, and we are best known for our X-ray scattering approaches that allow us to embrace conformational disorder."--taken from website 2023.09.25
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Subject: Research groups, Biochemistry -- Research, Biochemistry -- Research groups, Biophysics, Cornell University -- Research groups
Group: Cornell University Faculty Research and Laboratories
Creator: Ando Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00191
Collection: Cornell University Archives Web Archive
Description: "We use X-ray crystallography to study the three-dimensional structures of proteins. The structural information is used for drug design, protein engineering, to understand catalytic mechanisms, and to explore protein evolution. Our group is also involved in the development of tools and techniques associated with synchrotron radiation, especially multiple wavelength anomalous diffraction (MAD), single wavelength anomalous diffraction (SAD) and microdiffraction. Our main projects include studies of enzymes involved in purine nucleotide metabolism and pyrimidine nucleotide metabolism, studies of enzymes involved in cofactor biosynthesis, especially thiamin biosynthesis and pyridoxal 5'-phosphate PLP biosynthesis and enzymes involved in polyamine biosynthesis, purine biosynthesis, pyrimidine biosynthesis, and diphthamide biosynthesis."--taken from website 2023.09.25
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Subject: Biophysics, Research groups, Cornell University -- Research groups , Cornell University. Department of Chemistry and Chemical Biology
Group: Cornell University Faculty Research and Laboratories
Creator: Steve Ealick's Research Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00184
Collection: Cornell University Archives Web Archive
Description: "The Baird-Holowka research laboratory integrates a broad range of experimental approaches to investigate molecular mechanisms of receptor-mediated cell signaling that enables cells to sense and respond to environmental cues. Much of our work has focused on the high affinity receptor (FcεRI) for immunoglobulin E (IgE), which sensitizes mast cells to antigen and thereby plays a pivotal role in initiating inflammatory and allergic immune responses. We employ quantitative microscopy and other biophysical methods to monitor changes in the distributions and dynamics of receptors and signaling components that accompany cellular response activities, which we measure in parallel. A particular area of interest is the role of cellular membranes in regulating and targeting signaling pathways. We have long worked to characterize IgE-FcεRI- mediated signaling in RBL mast cells as a model system for addressing fundamental questions of cellular response mechanisms initiated by other receptors and environmental factors. Similarly, we are translating the experimental techniques and cell response concepts developed in our work to elucidate mechanisms in other cell types, including those involved in cancer and neurodegenerative diseases. For example, our current work investigates pathological interactions of alpha synuclein associated with Parkinson’s Disease."--taken from webstie 2023.09.25
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Subject: Research groups, Cornell University -- Research groups , Biophysics, Biology, Chemistry, Cornell University. Department of Chemistry and Chemical Biology
Group: Cornell University Faculty Research and Laboratories
Creator: Baird-Holowka Group Webpage
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00182
Collection: Cornell University Archives Web Archive
Description: "We apply tools from chemistry, biology, and materials science and engineering to create functional biomaterials that enable new treatments in regenerative medicine We strive to advance the field by innovations in biomaterial Design, Processing, and Application"--taken from website 2023.10.09
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Subject: Cornell University. Department of Engineering. Nancy E. and Peter C. Meinig School of Biomedical Engineering, Cornell University -- Research groups , Chemistry, Biology, Materials science -- Research
Group: Cornell University Faculty Research and Laboratories
Creator: The Biofoundry
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00160
Collection: Cornell University Archives Web Archive
Description: "The Bouklas Lab is part of the Sibley School of Mechanical and Aerospace Engineering at Cornell University. Our research focuses on the mechanical and multiphysical behavior of soft, active, biological and engineering materials, where we employ tools from theoretical and computational mechanics for their study. We work on multiphysics and multiscale problems, focusing on constitutive modeling, fracture, damage, contact and stability, utilizing advanced computational techniques and HPC. Our work on computational mechanics also focuses on the development of novel computational tools and techniques for materials modeling, including machine learning approaches for surrogate modeling and for the solution of PDEs."--taken from website 2024.01.22
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Subject: Cornell University -- Faculty, Cornell University -- Research groups , Cornell University. Department of Engineering. Sibley School of Mechanical and Aerospace Engineering, Engineering, Mechanics
Creator: Bouklas Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07313
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Collins Lab Blog, Cornell University. College of Veterinary Medicine
Identifier: https://hdl.handle.net/1813.001/wa00652
Collection: Cornell University Archives Web Archive
Description: "Our goals are to (1) define the mechanisms that mediate maternal and pathological insulin antagonism to support the development of the offspring with a focus on the sphingolipid ceramide, (2) delineate the mechanisms that limit the secretion of lipoprotein triacylglycerol during hepatic steatosis with a focus on phosphatidylcholine synthesis, (3) define new approaches to enhance nutrient digestibility and milk production efficiency, and (4) assess the impact of the gastrointestinal health on liver function and milk production performance. To ensure impact, we are testing novel nutritional and pharmacological technologies to modify insulin action, systemic glucose utilization, fatty acid absorption, hepatic lipid processing, and intestinal permeability."--taken from website 2024.01.08
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Subject: Cornell University -- Faculty, Cornell University. Animal Science Department, Cornell University -- Research groups , Biochemistry -- Research groups, Mammals--Physiology
Creator: Cornell University
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07318
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University. College of Veterinary Medicine. Department of Biomedical Sciences, RNA Sequencing Core (RSC), Cornell University -- Research groups
Identifier: https://hdl.handle.net/1813.001/wa00650
Collection: Cornell University Archives Web Archive
Description: "I am an Assistant Professor at Cornell University in Plant Breeding and Genetics Section. My background is in plant and animal breeding with a focus on advanced modeling and computational science for improving the efficiency of breeding programs and increasing understanding of complex traits. My lab conducts research to develop and implement advanced modeling and informatics capabilities to improve decision making and understanding of complex traits. Currently the lab is focused on bioenergy, genomic selection, phenomics, and increasing understanding of genotype by environmental interactions. My lab works with multiple crops and research is conducted in collaboration with breeding programs in the United States, Africa, and Asia."--taken from website 2024.01.08
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Subject: Cornell University -- Faculty, Cornell University -- Research groups , Genomics, Plant genetics, Plant breeding
Creator: Robbins Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07228
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University -- Research groups , Sethupathy Lab, Cornell University. College of Veterinary Medicine. Department of Biomedical Sciences
Identifier: https://hdl.handle.net/1813.001/wa00581
Collection: Cornell University Archives Web Archive
Description: "Our group’s research interest is to investigate mechanics problems emerging from the interaction of biological systems with surrounding environments. Specifically, our research efforts are dedicated to (1) exploring and understanding how biological systems interact, harness, and cope with fluidic surroundings, (2) investigating the underlying mechanics principles through combined theoretical and experimental approaches, and (3) translating bio-inspired ideas and concepts to sustainable engineering solutions."--taken from website 2023.10.09
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Subject: Bioengineering, Biomedical engineering -- Research, Cornell University -- Research groups , Medicine
Group: Cornell University Faculty Research and Laboratories
Creator: Bio-Inspired Fluid Laboratory
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00145
Collection: Cornell University Archives Web Archive
Description: News, events, faculty profiles, noteworthy research, and student accomplishments relating to the Boyce Thompson Institute.
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Subject: Boyce Thompson Institute for Plant Research, Boyce Thompson Institute, Cornell University -- Research groups , Science
Creator: Boyce Thompson Institute
Language: English
Coverage: Boyce Thompson Institute
Identifier: https://hdl.handle.net/1813.001/wa00540
Collection: Cornell University Archives Web Archive
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Subject: Cornell University. School of Applied and Engineering Physics, Buhrman Research Group, Cornell University -- Research groups
Creator: Cornell Engineering | Applied and Engineering Physics, Cornell Engineering | Applied and Engineering Physics
Language: English
Coverage: Cornell University, Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00694
Collection: Cornell University Archives Web Archive
Description: English
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Subject: Cornell University. Institute for European Studies, Cornell Institute for European Studies, Cornell University -- Research groups , Cornell University. Mario Einaudi Center for International Studies
Identifier: https://hdl.handle.net/1813.001/wa00453
Collection: Cornell University Archives Web Archive
Description: "The Citizens and Technology (CAT) Lab at Cornell University works with online communities to study the effects of technology on the public interest. We envision a world where digital power is guided by evidence and accountable to the public."--taken from website 2024.02.12
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Subject: Cornell University -- Research groups , Technology--Sociological aspects, Technology
Creator: CAT Lab
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07236
Collection: Cornell University Archives Web Archive
Description: "The research focus of the Coates Group is the development of new synthetic strategies for producing polymers of defined structure. The control of polymer composition, architecture, stereochemistry, and molecular weight allows the indirect control of polymer properties via polymer morphology. Our research projects are interdisciplinary, addressing problems at the interface of organic, inorganic, organometallic, and polymer chemistry. Described in the links in the drop-down menu of the Research tab are a selected compilation of research topics that are being investigated in the group."--taken from website 2023.09.25
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Subject: Research groups, Cornell University -- Research groups , Cornell University. Department of Chemistry and Chemical Biology, Polymer chemistry, Chemistry
Group: Cornell University Faculty Research and Laboratories
Creator: Coates Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00185
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