Thomas J. Macdonald
Thomas J. Macdonald
1851 Research Fellow, Imperial College London
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Cited by
Cited by
Trends in aluminium‐based intercalation batteries
F Ambroz, TJ Macdonald, T Nann
Advanced Energy Materials 7 (15), 1602093, 2017
Evaluation of the BET Theory for the Characterization of Meso and Microporous MOFs
F Ambroz, TJ Macdonald, V Martis, IP Parkin
Small Methods 2 (11), 1800173, 2018
Carbon Nanotubes in TiO2 Nanofiber Photoelectrodes for High‐Performance Perovskite Solar Cells
M Batmunkh, TJ Macdonald, CJ Shearer, M Bat‐Erdene, Y Wang, ...
Advanced Science 4 (4), 1600504, 2017
NiO Nanofibers as a Candidate for a Nanophotocathode
TJ Macdonald, J Xu, S Elmas, YJ Mange, WM Skinner, H Xu, T Nann
Nanomaterials 4 (2), 256-266, 2014
Thiol-capped gold nanoparticles swell-encapsulated into polyurethane as powerful antibacterial surfaces under dark and light conditions
TJ Macdonald, K Wu, SK Sehmi, S Noimark, WJ Peveler, H Du Toit, ...
Scientific reports 6 (1), 1-11, 2016
A TiO2 Nanofiber–Carbon Nanotube‐Composite Photoanode for Improved Efficiency in Dye‐Sensitized Solar Cells
TJ Macdonald, DD Tune, MR Dewi, CT Gibson, JG Shapter, T Nann
ChemSusChem 8 (20), 3396-3400, 2015
Optical fiber ultrasound transmitter with electrospun carbon nanotube-polymer composite
RK Poduval, S Noimark, RJ Colchester, TJ Macdonald, IP Parkin, ...
Applied physics letters 110 (22), 223701, 2017
CuInS 2/ZnS nanocrystals as sensitisers for NiO photocathodes
TJ Macdonald, YJ Mange, MR Dewi, HU Islam, IP Parkin, WM Skinner, ...
Journal of Materials Chemistry A 3 (25), 13324-13331, 2015
A quantum dot sensitized catalytic porous silicon photocathode
S Chandrasekaran, TJ Macdonald, YJ Mange, NH Voelcker, T Nann
Journal of Materials Chemistry A 2 (25), 9478-9481, 2014
Plasmonic gold nanostars incorporated into high-efficiency perovskite solar cells
M Batmunkh, T Macdonald, W Peveler, A Bati, CJ Carmalt, I Parkin, ...
ChemSusChem 10 (19), 3750-3753, 2017
Efficient Production of Phosphorene Nanosheets via Shear Stress Mediated Exfoliation for Low‐Temperature Perovskite Solar Cells
M Batmunkh, K Vimalanathan, C Wu, ASR Bati, LP Yu, SA Tawfik, ...
Small Methods 3 (5), 1800521, 2019
Continuous flow synthesis of citrate capped gold nanoparticles using UV induced nucleation
H Du Toit, TJ Macdonald, H Huang, IP Parkin, A Gavriilidis
RSC advances 7 (16), 9632-9638, 2017
Quantum dot sensitized photoelectrodes
TJ Macdonald, T Nann
Nanomaterials 1 (1), 79-88, 2011
Boron-doped silicon diatom frustules as a photocathode for water splitting
S Chandrasekaran, TJ Macdonald, AR Gerson, T Nann, NH Voelcker
ACS applied materials & interfaces 7 (31), 17381-17387, 2015
Photoresponsive properties of ultrathin silicon nanowires
DP Tran, TJ Macdonald, B Wolfrum, R Stockmann, T Nann, ...
Applied physics letters 105 (23), 231116, 2014
Hot carrier dynamics in perovskite nanocrystal solids: role of the cold carriers, nanoconfinement, and the surface
TR Hopper, A Gorodetsky, A Jeong, F Krieg, MI Bodnarchuk, M Maimaris, ...
Nano letters 20 (4), 2271-2278, 2020
Cation exchange of aqueous CuInS 2 quantum dots
TJ Macdonald, YJ Mange, M Dewi, A McFadden, WM Skinner, T Nann
CrystEngComm 16 (40), 9455-9460, 2014
Origin of Open‐Circuit Voltage Enhancements in Planar Perovskite Solar Cells Induced by Addition of Bulky Organic Cations
CT Lin, J Lee, J Kim, TJ Macdonald, J Ngiam, B Xu, M Daboczi, W Xu, ...
Advanced Functional Materials 30 (7), 1906763, 2020
Photo-doping of plasma-deposited polyaniline (PAni)
S Elmas, W Beelders, J Nash, TJ Macdonald, M Jasieniak, HJ Griesser, ...
RSC advances 6 (74), 70691-70699, 2016
Doping Group IIB Metal Ions into Quantum Dot Shells via the One‐Pot Decomposition of Metal‐Dithiocarbamates
JC Bear, N Hollingsworth, A Roffey, PD McNaughter, AG Mayes, ...
Advanced Optical Materials 3 (5), 704-712, 2015
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