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James Thomas
James Thomas
Bestätigte E-Mail-Adresse bei qmul.ac.uk
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Zitiert von
Zitiert von
Jahr
Anchor groups for graphene‐porphyrin single‐molecule transistors
B Limburg, JO Thomas, G Holloway, H Sadeghi, S Sangtarash, ICY Hou, ...
Advanced Functional Materials 28 (45), 1803629, 2018
792018
Understanding resonant charge transport through weakly coupled single-molecule junctions
JO Thomas, B Limburg, JK Sowa, K Willick, J Baugh, GAD Briggs, ...
Nature communications 10 (1), 4628, 2019
752019
Self-organized three-dimensional nanostructured architectures in bulk GaN generated by spatial modulation of doping
I Tiginyanu, MA Stevens-Kalceff, A Sarua, T Braniste, E Monaico, V Popa, ...
ECS journal of solid state science and technology 5 (5), P218, 2016
272016
Phase-coherent charge transport through a porphyrin nanoribbon
Z Chen, JR Deng, S Hou, X Bian, JL Swett, Q Wu, J Baugh, L Bogani, ...
Journal of the American Chemical Society 145 (28), 15265-15274, 2023
262023
Exchange-induced spin polarization in a single magnetic molecule junction
T Pei, JO Thomas, S Sopp, MY Tsang, N Dotti, J Baugh, NF Chilton, ...
Nature Communications 13 (1), 4506, 2022
262022
Observation of NH X3Σ as a Primary Product of Methylamine Photodissociation: Evidence of Roaming-Mediated Intersystem Crossing?
JO Thomas, KE Lower, C Murray
The journal of physical chemistry letters 3 (10), 1341-1345, 2012
232012
Charge-state assignment of nanoscale single-electron transistors from their current–voltage characteristics
B Limburg, JO Thomas, JK Sowa, K Willick, J Baugh, EM Gauger, ...
Nanoscale 11 (31), 14820-14827, 2019
202019
Tuning structure and function in tetra (aniline)-based rod–coil–rod architectures
CU Udeh, P Rannou, BP Brown, JO Thomas, CFJ Faul
Journal of Materials Chemistry C 1 (39), 6428-6437, 2013
152013
Formation of vibrationally excited methyl radicals following state-specific excitation of methylamine
JO Thomas, KE Lower, C Murray
The Journal of Physical Chemistry A 118 (42), 9844-9852, 2014
142014
Quantum interference enhances the performance of single-molecule transistors
Z Chen, IM Grace, SL Woltering, L Chen, A Gee, J Baugh, GAD Briggs, ...
Nature Nanotechnology, 1-7, 2024
132024
Charge transport through extended molecular wires with strongly correlated electrons
JO Thomas, JK Sowa, B Limburg, X Bian, C Evangeli, JL Swett, S Tewari, ...
Chemical Science 12 (33), 11121-11129, 2021
122021
Experimental evidence of disorder enhanced electron-phonon scattering in graphene devices
C Evangeli, E McCann, JL Swett, S Tewari, X Bian, JO Thomas, ...
Carbon 178, 632-639, 2021
112021
Imaging the predicted isomerism of oligo (aniline) s: a scanning tunneling microscopy study
JO Thomas, HD Andrade, BM Mills, NA Fox, HJK Hoerber, CFJ Faul
Small (Weinheim an der Bergstrasse, Germany) 11 (28), 3430, 2015
92015
Charge-state dependent vibrational relaxation in a single-molecule junction
X Bian, Z Chen, JK Sowa, C Evangeli, B Limburg, JL Swett, J Baugh, ...
Physical Review Letters 129 (20), 207702, 2022
82022
Connections to the Electrodes Control the Transport Mechanism in Single‐Molecule Transistors
Z Chen, SL Woltering, B Limburg, MY Tsang, J Baugh, GAD Briggs, ...
Angewandte Chemie International Edition 63 (16), e202401323, 2024
42024
Statistical signature of electrobreakdown in graphene nanojunctions
C Evangeli, S Tewari, JM Kruip, X Bian, JL Swett, J Cully, J Thomas, ...
Proceedings of the National Academy of Sciences 119 (27), e2119015119, 2022
42022
Phase-coherent charge transport through a porphyrin nanoribbon-graphene junction
Z Chen, JR Deng, S Hou, X Bian, JL Swett, Q Wu, J Baugh, GAD Briggs, ...
arXiv preprint arXiv 2205, 2022
22022
Non-equilibrium thermodynamics in a single-molecule quantum system
E Pyurbeeva, JO Thomas, JA Mol
Materials for Quantum Technology 3 (2), 025003, 2023
12023
Data and analysis scripts for: Statistical signature of electroburning in graphene nano-junctions
C Evangeli, S Tewari, J Kruip, X Bian, J Swett, J Cully, J Thomas, G Briggs, ...
University of Oxford, 2022
12022
Using machine learning and historical event data to leverage predicted odds for future events
J Thomas, A Solomon
US Patent 11,455,536, 2022
2022
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