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Research Statement
Our research involves theory and computation as applies to problems in nanotechnology, properties of materials, macromolecular structures and dynamics, molecular self-assembly, optics, plasma science, materials physics and biophysics. We are also interested in electronic structure methods, in quantum and classical theories of dynamical processes, in methods that combine electronic structure and electrodynamics, and in using these methods to study the reactions of molecules at interfaces.
A major interest is in the optical properties of metal nanoparticles and aggregates of nanoparticles, including applications in extinction and surface enhanced Raman spectroscopy, Rayleigh scattering and a variety of nonlinear optical properties, and in plasmon-driven photocatalysis. Much of our optical property work is concerned with classical electrodynamics, where we have developed new methods for describing light scattering and absorption, and methods for extending electrodynamics down to small structures. We are also learning to use electronic structure methods to describe nanoparticle optical properties, and in combining electronic structure theory and quantum electrodynamics.
Our research involves theory and computation as applies to problems in nanotechnology, properties of materials, macromolecular structures and dynamics, molecular self-assembly, optics, plasma science, materials physics and biophysics. We are also interested in electronic structure methods, in quantum and classical theories of dynamical processes, in methods that combine electronic structure and electrodynamics, and in using these methods to study the reactions of molecules at interfaces.
A major interest is in the optical properties of metal nanoparticles and aggregates of nanoparticles, including applications in extinction and surface enhanced Raman spectroscopy, Rayleigh scattering and a variety of nonlinear optical properties, and in plasmon-driven photocatalysis. Much of our optical property work is concerned with classical electrodynamics, where we have developed new methods for describing light scattering and absorption, and methods for extending electrodynamics down to small structures. We are also learning to use electronic structure methods to describe nanoparticle optical properties, and in combining electronic structure theory and quantum electrodynamics.
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Qiaomu Yang,Maxwell H. Furigay,Subhajyoti Chaudhuri,Michael R. Gau,George C. Schatz, Eric J. Schelter
ACS Sustainable Chemistry & Engineering (2024)
The Journal of chemical physicsno. 1 (2024)
Diptesh Dey,George C. Schatz
MRS Bulletinpp.1-10, (2024)
Mingzhan Wang,Tumpa Sadhukhan,Nicholas H. C. Lewis,Maoyu Wang,Xiang He,Gangbin Yan, Dongchen Ying,Eli Hoenig, Yu Han,Guiming Peng,One-Sun Lee,Fengyuan Shi,
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICAno. 2 (2024): e2313616121-e2313616121
Collin D Clay, Chelsea M Mueller, Christopher C Rich,George C Schatz,Peter J Bruggeman,Renee R Frontiera
The journal of physical chemistry letterspp.6918-6926, (2024)
ACS PHOTONICSno. 2 (2024): 673-681
Physical chemistry chemical physics : PCCPno. 13 (2024): 10078-10090
Vijay K Tomer, Rameshwar L. Kumawat,Otavio Augusto Titton Dias,Ritu Malik,George C Schatz,Mohini M. Sain
Journal of Materials Chemistry A (2024)
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