Matthew Sheldon
Matthew Sheldon
Assistant Professor, Texas A&M University
Verified email at - Homepage
TitleCited byYear
Exciton-to-dopant energy transfer in Mn-doped cesium lead halide perovskite nanocrystals
D Parobek, BJ Roman, Y Dong, H Jin, E Lee, M Sheldon, DH Son
Nano letters 16 (12), 7376-7380, 2016
Silicon-based plasmonics for on-chip photonics
JA Dionne, LA Sweatlock, MT Sheldon, AP Alivisatos, HA Atwater
IEEE Journal of Selected Topics in Quantum Electronics 16 (1), 295-306, 2010
Plasmoelectric potentials in metal nanostructures
MT Sheldon, J Van de Groep, AM Brown, A Polman, HA Atwater
Science 346 (6211), 828-831, 2014
Enhanced semiconductor nanocrystal conductance via solution grown contacts
MT Sheldon, PE Trudeau, T Mokari, LW Wang, AP Alivisatos
Nano letters 9 (11), 3676-3682, 2009
Electrochemical tuning of the dielectric function of Au nanoparticles
AM Brown, MT Sheldon, HA Atwater
ACS Photonics 2 (4), 459-464, 2015
GaAs passivation with trioctylphosphine sulfide for enhanced solar cell efficiency and durability
MT Sheldon, CN Eisler, HA Atwater
Advanced Energy Materials 2 (3), 339-344, 2012
Electrical contacts to individual colloidal semiconductor nanorods
PE Trudeau, M Sheldon, V Altoe, AP Alivisatos
Nano letters 8 (7), 1936-1939, 2008
Self-Assembled Epitaxial Au–Oxide Vertically Aligned Nanocomposites for Nanoscale Metamaterials
L Li, L Sun, JS Gomez-Diaz, NL Hogan, P Lu, F Khatkhatay, W Zhang, ...
Nano letters 16 (6), 3936-3943, 2016
Multijunction solar cell efficiencies: effect of spectral window, optical environment and radiative coupling
CN Eisler, RA Ze’ev, MT Sheldon, X Zhang, HA Atwater
Energy & Environmental Science 7 (11), 3600-3605, 2014
Au Exchange or Au Deposition: Dual Reaction Pathways in Au–CsPbBr3 Heterostructure Nanoparticles
BJ Roman, J Otto, C Galik, R Downing, M Sheldon
Nano letters 17 (9), 5561-5566, 2017
Ultraviolet surface plasmon-mediated low temperature hydrazine decomposition
S Peng, MT Sheldon, WG Liu, A Jaramillo-Botero, WA Goddard III, ...
Applied Physics Letters 106 (2), 023102, 2015
The role of mid-gap states in all-inorganic CsPbBr 3 nanoparticle one photon up-conversion
BJ Roman, M Sheldon
Chemical communications 54 (50), 6851-6854, 2018
Thermodynamic theory of the plasmoelectric effect
J Van de Groep, MT Sheldon, HA Atwater, A Polman
Scientific reports 6, 23283, 2016
Optical Power Conversion via Tunneling of Plasmonic Hot Carriers
S Wu, MT Sheldon
ACS Photonics 5 (6), 2516-2523, 2018
Using particle lithography to tailor the architecture of au nanoparticle plasmonic nanoring arrays
A Pravitasari, M Negrito, K Light, WS Chang, S Link, M Sheldon, ...
The Journal of Physical Chemistry B 122 (2), 730-736, 2017
Enhanced performance of small GaAs solar cells via edge and surface passivation with trioctylphosphine sulfide
CN Eisler, MT Sheldon, HA Atwater
2012 38th IEEE Photovoltaic Specialists Conference, 000937-000940, 2012
The plasmoelectric effect: optically induced electrochemical potentials in resonant metallic structures
MT Sheldon, HA Atwater
arXiv preprint arXiv:1202.0301, 2012
Nanoscale Artificial Plasmonic Lattice in Self‐Assembled Vertically Aligned Nitride–Metal Hybrid Metamaterials
J Huang, X Wang, NL Hogan, S Wu, P Lu, Z Fan, Y Dai, B Zeng, ...
Advanced Science 5 (7), 1800416, 2018
Optoelectronic phenomena in gold metal nanostructures due to the inverse Faraday effect
A Nadarajah, MT Sheldon
Optics express 25 (11), 12753-12764, 2017
Six-fold plasmonic enhancement of thermal scavenging via CsPbBr3 anti-Stokes photoluminescence
BJ Roman, MT Sheldon
Nanophotonics 8 (4), 599-605, 2019
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