Theoretical Nanophotonics at Rice University
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We are a theoretical group leading research in the field of
nanophotonics and plasmonics. We use a wide range of numerical methods
(FDTD, FEM, BEM, DDA, Mie, TDDFT) to investigate the optical properties of
metallic, semiconductor, and graphene nanostructures, plasmonic, excitonic, and hybrid
systems.
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NEWS:
Jan. 6 - JACS (Just Accepted 2019) "Ligand-Dependent Colloidal Stability Controls the Growth of Aluminum Nanocrystals" B. D. Clark, C. J. DeSantis, G. Wu, D. Renard, M. J. McClain, L. Bursi, A.-L. Tsai, P. Nordlander, and N. J. Halas
Dec. 21 - Nano Lett., 2019, 19 (1), pp 605-611 “Toroidal Dipole-Enhanced Third Harmonic Generation of Deep Ultraviolet Light using Plasmonic Meta-Atoms" A. Ahmadivand, M. Semmlinger, L. Dong, B. Gerislioglu, P. Nordlander, and N. J. Halas
Nov. 7 - ACS Nano, 2018, 12 (11), pp 11657-11663 “Exploiting Evanescent Field Polarization for Giant Chiroptical Modulation from Achiral Gold Half-Rings" K. W. Smith, L. A. McCarthy, A. Alabastri, L. Bursi, W.-S. Chang, P. Nordlander, and S. Link
Oct. 30 - JACS, 2018, 140 (45), pp 15412-15418 "Polymer-Directed Growth of Plasmonic Aluminum Nanocrystals" S. Lu, H. Yu, S. Gottheim, H. Gao, C. J. Desantis, B. D. Clark, J. Yang, C. R. Jacobson, Z. Lu, P. Nordlander, N. J. Halas, and K. Liu
Oct. 26 - Materials Today (Just Accepted 2018) "Plasmonic Nanoparticle-Based Epoxy Photocuring: A Deeper Look" A. T. Roberts, J. Yang, M. E. Reish, A. Alabastri, N. J. Halas, P. Nordlander, and H. O. Everitt
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