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We use the tools of theoretical physical chemistry to design new organic-based molecules which will fuel the revolution in device technology. To achieve the molecular design, we utilize complex modeling theory and develop software to allow us to theoretically test these molecules for their electro-optic activity. Working with organic chemists, we then synthesize and test the materials' actual EO properties. These specially designed molecules are then given to engineering groups to include in on-chip, nanoscale devices. Our new molecules provide a mechanism for the coupling between the computer chip computations and the outside world via an optical connection, creating faster and more energy efficient communication.
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Lewis E. Johnson,Scott R. Hammond,Delwin L. Elder, Kevin M. O'Malley,Huajun Xu,Larry R. Dalton,Bruce H. Robinson
Nanoengineering: Fabrication, Properties, Optics, Thin Films, and Devices XIX (2022)
Physical Chemistry of Semiconductor Materials and Interfaces XX (2021): 44-56
Molecular and Nano Machines IV (2021): 1181202
Quantum Nanophotonic Materials, Devices, and Systems 2020 (2020)
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