Artikel dengan mandat akses publik - Roar R. SøndergaardPelajari lebih lanjut
Tidak tersedia di mana pun: 13
Scalable, ambient atmosphere roll-to-roll manufacture of encapsulated large area, flexible organic tandem solar cell modules
TR Andersen, HF Dam, M Hösel, M Helgesen, JE Carlé, TT Larsen-Olsen, ...
Energy & Environmental Science 7 (9), 2925-2933, 2014
Mandat: Danish Council for Independent Research, Danish National Research Foundation …
Cost analysis of roll-to-roll fabricated ITO free single and tandem organic solar modules based on data from manufacture
F Machui, M Hösel, N Li, GD Spyropoulos, T Ameri, RR Søndergaard, ...
Energy & Environmental Science 7 (9), 2792-2802, 2014
Mandat: German Research Foundation
The state of organic solar cells—A meta analysis
M Jørgensen, JE Carlé, RR Søndergaard, M Lauritzen, ...
Solar Energy Materials and Solar Cells 119, 84-93, 2013
Mandat: Danish National Research Foundation
Roll‐to‐roll printed silver nanowire semitransparent electrodes for fully ambient solution‐processed tandem polymer solar cells
D Angmo, TR Andersen, JJ Bentzen, M Helgesen, RR Søndergaard, ...
Advanced Functional Materials 25 (28), 4539-4547, 2015
Mandat: German Research Foundation, Danish National Research Foundation
All polymer photovoltaics: From small inverted devices to large roll-to-roll coated and printed solar cells
Y Liu, TT Larsen-Olsen, X Zhao, B Andreasen, RR Søndergaard, ...
Solar Energy Materials and Solar Cells 112, 157-162, 2013
Mandat: Danish National Research Foundation
Making Ends Meet: Flow Synthesis as the Answer to Reproducible High‐Performance Conjugated Polymers on the Scale that Roll‐to‐Roll Processing Demands
M Helgesen, JE Carlé, GA dos Reis Benatto, RR Søndergaard, ...
Advanced Energy Materials 5 (9), 1401996, 2015
Mandat: Danish Council for Independent Research
Matrix organization and merit factor evaluation as a method to address the challenge of finding a polymer material for roll coated polymer solar cells
E Bundgaard, F Livi, O Hagemann, JE Carlé, M Helgesen, IM Heckler, ...
Advanced Energy Materials 5 (10), 1402186, 2015
Mandat: Danish National Research Foundation
Rapid flash annealing of thermally reactive copolymers in a roll-to-roll process for polymer solar cells
M Helgesen, JE Carlé, B Andreasen, M Hösel, K Norrman, ...
Polymer Chemistry 3 (9), 2649-2655, 2012
Mandat: Danish Council for Independent Research
Conjugated 12 nm long oligomers as molecular wires in nanoelectronics
R Søndergaard, S Strobel, E Bundgaard, K Norrman, AG Hansen, ...
Journal of Materials Chemistry 19 (23), 3899-3908, 2009
Mandat: German Research Foundation
Portable and wireless IV-curve tracer for> 5 kV organic photovoltaic modules
R García-Valverde, S Chaouki-Almagro, M Corazza, N Espinosa, M Hösel, ...
Solar Energy Materials and Solar Cells 151, 60-65, 2016
Mandat: Government of Spain
Scalable single point power extraction for compact mobile and stand-alone solar harvesting power sources based on fully printed organic photovoltaic modules and efficient high …
R Garcia-Valverde, JA Villarejo, M Hösel, MV Madsen, RR Søndergaard, ...
Solar Energy Materials and Solar Cells 144, 48-54, 2016
Mandat: Government of Spain
Flow synthesis of silver nanowires for semitransparent solar cell electrodes: a life cycle perspective
N Espinosa, RR Søndergaard, M Jørgensen, FC Krebs
ChemSusChem 9 (8), 893-899, 2016
Mandat: Danish Council for Independent Research
Silicon based nanogap device for investigating electronic transport through 12 nm long oligomers
S Strobel, R Søndergaard, E Bundgaard, K Norrman, FC Krebs, E Albert, ...
2009 9th IEEE Conference on Nanotechnology (IEEE-NANO), 83-85, 2009
Mandat: German Research Foundation
Tersedia di suatu tempat: 13
Mechanical properties of a library of low-band-gap polymers
B Roth, S Savagatrup, N V. de los Santos, O Hagemann, JE Carlé, ...
Chemistry of Materials 28 (7), 2363-2373, 2016
Mandat: US National Science Foundation, Villum Foundation
Overcoming the scaling lag for polymer solar cells
JE Carlé, M Helgesen, O Hagemann, M Hösel, IM Heckler, E Bundgaard, ...
Joule 1 (2), 274-289, 2017
Mandat: Government of Spain
Scalable fabrication of organic solar cells based on non-fullerene acceptors
AS Gertsen, MF Castro, RR Søndergaard, JW Andreasen
Flexible and Printed Electronics 5 (1), 014004, 2020
Mandat: European Commission
Mechanical stability of roll-to-roll printed solar cells under cyclic bending and torsion
M Finn III, CJ Martens, AV Zaretski, B Roth, RR Søndergaard, FC Krebs, ...
Solar Energy Materials and Solar Cells 174, 7-15, 2018
Mandat: US National Science Foundation, US Department of Defense
Improving, characterizing and predicting the lifetime of organic photovoltaics
SA Gevorgyan, IM Heckler, E Bundgaard, M Corazza, M Hösel, ...
Journal of Physics D: Applied Physics 50 (10), 103001, 2017
Mandat: Villum Foundation
Enabling flexible polymer tandem solar cells by 3D ptychographic imaging
HF Dam, TR Andersen, EBL Pedersen, KTS Thydén, M Helgesen, ...
Advanced Energy Materials 5 (1), 1400736, 2015
Mandat: Danish Council for Independent Research, Danish National Research Foundation …
Round‐Robin Studies as a Method for Testing and Validating High‐Efficiency ITO‐Free Polymer Solar Cells Based on Roll‐to‐Roll‐Coated Highly Conductive and Transparent Flexible …
TT Larsen‐Olsen, F Machui, B Lechene, S Berny, D Angmo, ...
Advanced Energy Materials 2 (9), 1091-1094, 2012
Mandat: Danish National Research Foundation
Informasi terbitan dan pendanaan ditentukan secara otomatis oleh program komputer