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Matthew O. Reese
Matthew O. Reese
Bestätigte E-Mail-Adresse bei nrel.gov
Titel
Zitiert von
Zitiert von
Jahr
Schottky solar cells based on colloidal nanocrystal films
JM Luther, M Law, MC Beard, Q Song, MO Reese, RJ Ellingson, AJ Nozik
Nano letters 8 (10), 3488-3492, 2008
11842008
Consensus statement for stability assessment and reporting for perovskite photovoltaics based on ISOS procedures
MV Khenkin, EA Katz, A Abate, G Bardizza, JJ Berry, C Brabec, F Brunetti, ...
Nature Energy 5 (1), 35-49, 2020
10062020
Consensus stability testing protocols for organic photovoltaic materials and devices
MO Reese, SA Gevorgyan, M Jørgensen, E Bundgaard, SR Kurtz, ...
Solar Energy Materials and Solar Cells 95 (5), 1253-1267, 2011
9532011
Carrier lifetimes of> 1 μs in Sn-Pb perovskites enable efficient all-perovskite tandem solar cells
J Tong, Z Song, DH Kim, X Chen, C Chen, AF Palmstrom, PF Ndione, ...
Science 364 (6439), 475-479, 2019
8932019
Endohedral fullerenes for organic photovoltaic devices
RB Ross, CM Cardona, DM Guldi, SG Sankaranarayanan, MO Reese, ...
Nature materials 8 (3), 208-212, 2009
7082009
Perovskite ink with wide processing window for scalable high-efficiency solar cells
M Yang, Z Li, MO Reese, OG Reid, DH Kim, S Siol, TR Klein, Y Yan, ...
Nature Energy 2 (5), 1-9, 2017
5842017
CdTe solar cells with open-circuit voltage breaking the 1 V barrier
JM Burst, JN Duenow, DS Albin, E Colegrove, MO Reese, JA Aguiar, ...
Nature Energy 1 (3), 1-8, 2016
4632016
The 2020 photovoltaic technologies roadmap
GM Wilson, M Al-Jassim, WK Metzger, SW Glunz, P Verlinden, G Xiong, ...
Journal of Physics D: Applied Physics 53 (49), 493001, 2020
4072020
Enabling flexible all-perovskite tandem solar cells
AF Palmstrom, GE Eperon, T Leijtens, R Prasanna, SN Habisreutinger, ...
Joule 3 (9), 2193-2204, 2019
3902019
Photoinduced degradation of polymer and polymer–fullerene active layers: experiment and theory
MO Reese, AM Nardes, BL Rupert, RE Larsen, DC Olson, MT Lloyd, ...
Advanced Functional Materials 20 (20), 3476-3483, 2010
3672010
Pathways for the degradation of organic photovoltaic P3HT: PCBM based devices
MO Reese, AJ Morfa, MS White, N Kopidakis, SE Shaheen, G Rumbles, ...
Solar Energy Materials and Solar Cells 92 (7), 746-752, 2008
3182008
From defects to degradation: a mechanistic understanding of degradation in perovskite solar cell devices and modules
SP Dunfield, L Bliss, F Zhang, JM Luther, K Zhu, MFAM van Hest, ...
Advanced Energy Materials 10 (26), 1904054, 2020
3162020
Influence of Electrode Interfaces on the Stability of Perovskite Solar Cells: Reduced Degradation Using MoOx/Al for Hole Collection
EM Sanehira, BJ Tremolet de Villers, P Schulz, MO Reese, S Ferrere, ...
ACS Energy Letters 1 (1), 38-45, 2016
2882016
Optimal negative electrodes for poly (3-hexylthiophene):[6, 6]-phenyl C61-butyric acid methyl ester bulk heterojunction photovoltaic devices
MO Reese, MS White, G Rumbles, DS Ginley, SE Shaheen
Applied Physics Letters 92 (5), 2008
2492008
Impact of contact evolution on the shelf life of organic solar cells
MT Lloyd, DC Olson, P Lu, E Fang, DL Moore, MS White, MO Reese, ...
Journal of Materials Chemistry 19 (41), 7638-7642, 2009
2302009
Ultrasonic spray deposition for production of organic solar cells
KX Steirer, MO Reese, BL Rupert, N Kopidakis, DC Olson, RT Collins, ...
Solar Energy Materials and Solar Cells 93 (4), 447-453, 2009
2252009
The roles of carrier concentration and interface, bulk, and grain-boundary recombination for 25% efficient CdTe solar cells
A Kanevce, MO Reese, TM Barnes, SA Jensen, WK Metzger
Journal of Applied Physics 121 (21), 2017
2212017
Highly efficient perovskite solar modules by scalable fabrication and interconnection optimization
M Yang, DH Kim, TR Klein, Z Li, MO Reese, BJ Tremolet de Villers, ...
ACS Energy Letters 3 (2), 322-328, 2018
1782018
The Effect of Nanoparticle Shape on the Photocarrier Dynamics and Photovoltaic Device Performance of Poly (3‐hexylthiophene): CdSe Nanoparticle Bulk Heterojunction Solar Cells
S Dayal, MO Reese, AJ Ferguson, DS Ginley, G Rumbles, N Kopidakis
Advanced Functional Materials 20 (16), 2629-2635, 2010
1772010
Comparing the fundamental physics and device performance of transparent, conductive nanostructured networks with conventional transparent conducting oxides
TM Barnes, MO Reese, JD Bergeson, BA Larsen, JL Blackburn, ...
Advanced Energy Materials 2 (3), 353-360, 2012
1762012
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