Built at the Internet Archive
Subject
Sort By:
Creator
Sort By:
Sites for this collection are listed below. Narrow your results at left, or enter a search query below to find a site, specific URL or to search the text of archived webpages.
Page 1 of 1 (10 Total Results)
Sort By:
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
Loading Wayback Capture Info...
Loading video data...
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
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
Loading Wayback Capture Info...
Loading video data...
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
Loading Wayback Capture Info...
Loading video data...
Subject: Science, Technology, Nanoscience -- Research , Nanostructures -- Research, Buhrman Research Group
Creator: Cornell Engineering - Applied and Engineering Physics
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00804
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
Loading Wayback Capture Info...
Loading video data...
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
Description: "The goal of the MSK-Cornell Center for Translation of Cancer Nanomedicine is to advance, translate, and disseminate a suite of ultrasmall, multimodality, core-shell silica nanoparticles."
Loading Wayback Capture Info...
Loading video data...
Subject: Nanoscience -- Research , Medicine, Cancer -- Treatment
Creator: MSK-Cornell Center for Translation of Cancer Nanomedicine
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00290
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
Loading Wayback Capture Info...
Loading video data...
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
Loading Wayback Capture Info...
Loading video data...
Subject: Nanoscience -- Research , Nanostructures -- Research, Science, Technology, Engineering, Cornell NanoScale Facility
Creator: Cornell Nanoscale Science and Technology Facility
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00834
Description: The website for the Craighead Research Group, led by Prof. Harold G. Craighead, Cornell University, Department of Engineering.
Loading Wayback Capture Info...
Loading video data...
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
Description: "The Kavli Institute at Cornell (KIC) is devoted to the development and utilization of next-generation tools for exploring the nanoscale world. KIC creates new techniques to image and dynamically control nanoscale systems and uses these techniques to push the frontiers of nanoscale science. KIC’s measurement-oriented mission complements existing strengths at Cornell in nanofabrication."
Loading Wayback Capture Info...
Loading video data...
Subject: Kavli Institute, Kavli Institute at Cornell, Nanoscience -- Research , Science
Creator: Kavli Institute at Cornell
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa00762
Description: "We are an interdisciplinary research group specializing in both computational modeling and experimental characterization of energy transport. Particularly, we are interested in thermal phonons and their interactions with other energy carriers, such as electrons, photons, and magnons. We are on a mission to help build a sustainable energy future and achieve carbon neutrality by 1) Developing renewable energy harvesting technologies using thermal energy; 2) Designing energy-efficient thermal management technologies for micro/nanoelectronics and building technologies. We have been working on advancing the fundamental understanding of nanoscale transport and energy conversion to make a transformative impact on material design and discovery for diverse applications. New directions we are getting into include space exploration, neuromodulation, and quantum computing."--taken from website 2024.01.29
Loading Wayback Capture Info...
Loading video data...
Subject: Cornell University -- Faculty, Cornell University -- Research groups, Energy, Renewable energy sources -- Research, Nanoscience -- Research
Creator: ZT Group
Language: English
Coverage: Cornell University
Identifier: https://hdl.handle.net/1813.001/wa07307
Page 1 of 1 (10 Total Results)