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The Surface and Interfacial Chemistry of Materials
We are harnessing the potential of nanoscale materials through the ability to tune their surface and interfacial chemistries. This research includes advancing our understanding and control of chemical modifications to the surfaces of nanoscale materials. We are also developing techniques to facilitate new reactions and chemical transformations at the surfaces of nanoscale materials.
We are advancing materials designs with applications in catalysis, electrochemical sensing, controlled delivery and release of therapeutics, bioinspired adhesives, and bioinspired coatings. Through this research we seek to facilitate the development of cost effective hydrogen and methanol fuel cell catalysts, functional materials and coatings with an improved durability, new therapeutics for the management of cancer, methods to safely work with nanoscale materials, as well as sensors with an increased sensitivity and selectivity for use in portable medical diagnostics.
Students in the Gates Research Group acquire hands-on experience in the synthesis and characterization of nanoscale materials. We typically use a series of electron microscopy, scanning probe microscopy, surface spectroscopy, and diffraction techniques to characterize the composition and form of the nanostructures. Students may also develop skills in micro- and nanofabrication to pattern materials, to prepare microfluidic and electronic devices, to direct the self-assembly of nanostructures, and to measure the physical properties of these nanostructures.
We are harnessing the potential of nanoscale materials through the ability to tune their surface and interfacial chemistries. This research includes advancing our understanding and control of chemical modifications to the surfaces of nanoscale materials. We are also developing techniques to facilitate new reactions and chemical transformations at the surfaces of nanoscale materials.
We are advancing materials designs with applications in catalysis, electrochemical sensing, controlled delivery and release of therapeutics, bioinspired adhesives, and bioinspired coatings. Through this research we seek to facilitate the development of cost effective hydrogen and methanol fuel cell catalysts, functional materials and coatings with an improved durability, new therapeutics for the management of cancer, methods to safely work with nanoscale materials, as well as sensors with an increased sensitivity and selectivity for use in portable medical diagnostics.
Students in the Gates Research Group acquire hands-on experience in the synthesis and characterization of nanoscale materials. We typically use a series of electron microscopy, scanning probe microscopy, surface spectroscopy, and diffraction techniques to characterize the composition and form of the nanostructures. Students may also develop skills in micro- and nanofabrication to pattern materials, to prepare microfluidic and electronic devices, to direct the self-assembly of nanostructures, and to measure the physical properties of these nanostructures.
研究兴趣
论文共 231 篇作者统计合作学者相似作者
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ENVIRONMENTAL SCIENCE-NANOno. 6 (2024): 2693-2702
ChemSusChemno. 13 (2024): e202301922-e202301922
Hygiene and Environmental Health Advances (2024): 100089
ACS Applied Nano Materialsno. 7 (2024): 7474-7485
ACS Omegano. 15 (2024): 17467-17480
ACS APPLIED ENERGY MATERIALSno. 8 (2024): 3187-3200
Taylor Filewood, Alex J. G. Rea,Gurbinder Kaur, Annabelle M. K. Hadley, George R. Agnes,Byron D. Gates
CANADIAN JOURNAL OF CHEMISTRYno. 4 (2024): 223-234
ACS APPLIED ENERGY MATERIALS (2024)
ACS Applied Energy Materials (2024)
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