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Professor Leburton's expertise is the theory and simulation of nanoscale semiconductor devices and low-dimensional systems. His research focuses more specifically on transport and optical processes in semiconductor nanostructures such as quantum wells, quantum wires and quantum dots. Current research projects involve electronic properties of self-assembled dots for high performance lasers, single-electron charging and spin effects in quantum dots, modeling of nanocrystal floating gate flash memory devices, nanoscale Si MOSFET's and carbon nanotubes and graphene nanostructures. His research deals also with dissipative mechanisms involving electron-phonon interaction in nanostructures for mid- and far-infrared intra-band lasers. Approaches to these problems involve use of sophisticated numerical techniques such as Monte-Carlo simulation and advanced 3D self-consistent Schroedinger-Poisson model including non-equilibrium transport for full scale nanodevice modeling.In the last 18 years, he turned his interest toward the interaction between living systems and semiconductors to investigate programming and sensing biomolecules with nanoelectronics.
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NANO LETTERSno. 24 (2023): 11719-11726
Nagendra Bala Murali Athreya,Mingye Xiong,Rajat Chakraborty, Henry T. Crawford-Eng,Jean-Pierre Leburton
ACS APPLIED NANO MATERIALSno. 6 (2023): 4406-4416
NANO ENERGY (2023): 108860-108860
Journal of Applied Physicsno. 19 (2022): 193102-193102
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