Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/overcoming-microstructural-limitations-in-water-processed-organic-UOVx2WSxa7
References (62)
-
G. Dennler, A. Mozer, G. Juska, A. Pivrikas, R. Österbacka, A. Fuchsbauer, N. Sariciftci (2006)
Charge carrier mobility and lifetime versus composition of conjugated polymer/fullerene bulk-heterojunction solar cellsOrganic Electronics, 7
-
M. Mandoc, W. Veurman, L. Koster, B. de Boer, P. Blom (2007)
Origin of the Reduced Fill Factor and Photocurrent in MDMO‐PPV:PCNEPV All‐Polymer Solar CellsAdvanced Functional Materials, 17
-
S. Ulum, N. Holmes, D. Darwis, Kerry Burke, A. Kilcoyne, Xiaojing Zhou, W. Belcher, P. Dastoor (2013)
Determining the structural motif of P3HT:PCBM nanoparticulate organic photovoltaic devicesSolar Energy Materials and Solar Cells, 110
-
L. Koster, V. Mihailetchi, R. Ramaker, P. Blom (2005)
Light intensity dependence of open-circuit voltage of polymer: fullerene solar cellsApplied Physics Letters, 86
-
Christopher Proctor, S. Albrecht, M. Kuik, D. Neher, Thuc‐Quyen Nguyen (2014)
Overcoming Geminate Recombination and Enhancing Extraction in Solution‐Processed Small Molecule Solar CellsAdvanced Energy Materials, 4
-
Benjamin Vaughan, E. Williams, N. Holmes, P. Sonar, A. Dodabalapur, P. Dastoor, W. Belcher (2014)
Water-based nanoparticulate solar cells using a diketopyrrolopyrrole donor polymer.Physical chemistry chemical physics : PCCP, 16 6
-
Jangwhan Cho, Kwang Cheon, Hyungju Ahn, K. Park, Soon-Ki Kwon, Yun‐Hi Kim, D. Chung (2015)
High Charge‐Carrier Mobility of 2.5 cm2 V−1 s−1 from a Water‐Borne Colloid of a Polymeric Semiconductor via Smart Surfactant EngineeringAdvanced Materials, 27
-
V. Mihailetchi, L. Koster, J. Hummelen, P. Blom (2004)
Photocurrent generation in polymer-fullerene bulk heterojunctions.Physical review letters, 93 21
-
T. Andersen, T. Larsen-Olsen, Birgitta Andreasen, A. Böttiger, J. Carlé, Martin Helgesen, E. Bundgaard, K. Norrman, J. Andreasen, M. Jørgensen, F. Krebs (2011)
Aqueous processing of low-band-gap polymer solar cells using roll-to-roll methods.ACS nano, 5 5
-
Peter Watkins, A. Walker, G. Verschoor (2005)
Dynamical Monte Carlo modelling of organic solar cells: the dependence of internal quantum efficiency on morphology.Nano letters, 5 9
-
(2005)
Electrical and optical properties of Mg-dopedAl 0.7Ga 0.3N alloys -
M. Al-Mudhaffer, M. Griffith, Krishna Feron, N. Nicolaidis, Nathan Cooling, Xiaojing Zhou, J. Holdsworth, W. Belcher, P. Dastoor (2018)
The origin of performance limitations in miniemulsion nanoparticulate organic photovoltaic devicesSolar Energy Materials and Solar Cells, 175
-
T. Offermans, Scj Meskers, R. Janssen (2006)
Time delayed collection field experiments on polymer: fullerene bulk-heterojunction solar cellsJournal of Applied Physics, 100
-
C. Shuttle, B. O'Regan, Amy Ballantyne, J. Nelson, D. Bradley, J. Durrant (2008)
Bimolecular recombination losses in polythiophene: Fullerene solar cellsPhysical Review B, 78
-
P. Blom, M. Jong, J. Vleggaar, J. Vleggaar (1996)
Electron and hole transport in poly(p‐phenylene vinylene) devicesApplied Physics Letters, 68
-
S. Cowan, N. Banerji, Wei Leong, A. Heeger (2012)
Charge Formation, Recombination, and Sweep‐Out Dynamics in Organic Solar CellsAdvanced Functional Materials, 22
-
T. Brenner, Zhe Li, C. McNeill (2011)
Phase-Dependent Photocurrent Generation in Polymer/Fullerene Bulk Heterojunction Solar CellsJournal of Physical Chemistry C, 115
-
L. Ye, Xuechen Jiao, Meng Zhou, Shaoqing Zhang, H. Yao, Wenchao Zhao, A. Xia, H. Ade, Jianhui Hou (2015)
Manipulating Aggregation and Molecular Orientation in All‐Polymer Photovoltaic CellsAdvanced Materials, 27
-
D. Bartesaghi, M. Turbiez, L. Koster (2014)
Charge transport and recombination in PDPP5T:[70]PCBM organic solar cells: The influence of morphologyOrganic Electronics, 15
-
R. Marsh, J. Hodgkiss, R. Friend (2010)
Direct Measurement of Electric Field‐Assisted Charge Separation in Polymer:Fullerene Photovoltaic DiodesAdvanced Materials, 22
-
Martijn Lenes, M. Morana, C. Brabec, P. Blom (2009)
Recombination‐Limited Photocurrents in Low Bandgap Polymer/Fullerene Solar CellsAdvanced Functional Materials, 19
-
Weiwei Li, W. Roelofs, M. Wienk, René Janssen (2012)
Enhancing the photocurrent in diketopyrrolopyrrole-based polymer solar cells via energy level control.Journal of the American Chemical Society, 134 33
-
G. Kuik, M. Blom, M. PaulW., Gert‐Jan Wetzelaer (2012)
University of Groningen Identifying the Nature of Charge Recombination in Organic Solar Cells from Charge-Transfer State Electroluminescence Wetzelaer, -
heterojunctions, Yu (2001)
Polymer photovoltaic cells - enhanced efficiencies via a network of internal donor-acceptor heterojunctions -
S. Gärtner, M. Christmann, Sivaramakrishnan Sankaran, Holger Röhm, Eva-Marie Prinz, F. Penth, Andreas Pütz, A. Türeli, B. Penth, B. Baumstümmler, A. Colsmann (2014)
Eco‐Friendly Fabrication of 4% Efficient Organic Solar Cells from Surfactant‐Free P3HT:ICBA Nanoparticle DispersionsAdvanced Materials, 26
-
J. Min, Y. Luponosov, Nicola Gasparini, Moses Richter, A. Bakirov, M. Shcherbina, S. Chvalun, L. Grodd, S. Grigorian, T. Ameri, S. Ponomarenko, C. Brabec (2015)
Effects of Alkyl Terminal Chains on Morphology, Charge Generation, Transport, and Recombination Mechanisms in Solution‐Processed Small Molecule Bulk Heterojunction Solar CellsAdvanced Energy Materials, 5
-
Jacobus Franeker, M. Turbiez, Weiwei Li, M. Wienk, R. Janssen (2015)
A real-time study of the benefits of co-solvents in polymer solar cell processingNature Communications, 6
-
Shuhui Li, Jianying Huang, Zhong Chen, Guoqiang Chen, Y. Lai (2017)
A review on special wettability textiles: theoretical models, fabrication technologies and multifunctional applicationsJournal of Materials Chemistry, 5
-
N. Holmes, Melissa Marks, Pankaj Kumar, R. Kroon, M. Barr, N. Nicolaidis, Krishna Feron, A. Pivrikas, A. Fahy, Amaia Mendaza, A. Kilcoyne, C. Müller, Xiaojing Zhou, M. Andersson, P. Dastoor, W. Belcher, Amaia Diaz, Ian Wark (2016)
Nano-pathways: Bridging the divide between water-processable nanoparticulate and bulk heterojunction organic photovoltaicsNano Energy, 19
-
Yong Cui, H. Yao, B. Gao, Yunpeng Qin, Shaoqing Zhang, Bei Yang, Chang He, Bowei Xu, Jianhui Hou (2017)
Fine-Tuned Photoactive and Interconnection Layers for Achieving over 13% Efficiency in a Fullerene-Free Tandem Organic Solar Cell.Journal of the American Chemical Society, 139 21
-
Wenchao Zhao, Sunsun Li, H. Yao, Shaoqing Zhang, Yun Zhang, Bei Yang, Jianhui Hou (2017)
Molecular Optimization Enables over 13% Efficiency in Organic Solar Cells.Journal of the American Chemical Society, 139 21
-
Weiwei Li, K. Hendriks, M. Wienk, R. Janssen (2016)
Diketopyrrolopyrrole Polymers for Organic Solar Cells.Accounts of chemical research, 49 1
-
Ying Diao, Leo Shaw, Zhenan Bao, S. Mannsfeld (2014)
Morphology control strategies for solution-processed organic semiconductor thin filmsEnergy and Environmental Science, 7
-
M. Kaltenbrunner, M. White, E. Głowacki, T. Sekitani, T. Someya, N. Sariciftci, S. Bauer (2012)
Ultrathin and lightweight organic solar cells with high flexibilityNature Communications, 3
-
L. Koster, M. Kemerink, M. Wienk, K. Maturova, René Janssen (2011)
Quantifying Bimolecular Recombination Losses in Organic Bulk Heterojunction Solar CellsAdvanced Materials, 23
-
A. Pivrikas, H. Neugebauer, N. Sariciftci (2010)
Charge Carrier Lifetime and Recombination in Bulk Heterojunction Solar CellsIEEE Journal of Selected Topics in Quantum Electronics, 16
-
Jianqi Zhang, Yajie Zhang, Jin Fang, Kun Lu, Zaiyu Wang, Wei Ma, Zhixiang Wei (2015)
Conjugated Polymer-Small Molecule Alloy Leads to High Efficient Ternary Organic Solar Cells.Journal of the American Chemical Society, 137 25
-
K. Landfester, Rivelino Montenegro, U. Scherf, R. Güntner, U. Asawapirom, S. Patil, D. Neher, Thomas Kietzke (2002)
Semiconducting Polymer Nanospheres in Aqueous Dispersion Prepared by a Miniemulsion ProcessAdvanced Materials, 14
-
Xugang Guo, Nanjia Zhou, Sylvia Lou, Jeremy Smith, Daniel Tice, Jonathan Hennek, R. Ortiz, J. Navarrete, Shuyou Li, J. Strzalka, Lin Chen, R. Chang, A. Facchetti, T. Marks (2013)
Polymer solar cells with enhanced fill factorsNature Photonics, 7
-
Qun Wan, Xia Guo, Zaiyu Wang, Wanbin Li, Bing Guo, Wei Ma, Maojie Zhang, Yongfang Li (2016)
10.8% Efficiency Polymer Solar Cells Based on PTB7‐Th and PC71BM via Binary Solvent Additives TreatmentAdvanced Functional Materials, 26
-
Benjamin Vaughan, Andrew Stapleton, E. Sesa, N. Holmes, Xiaojing Zhou, P. Dastoor, W. Belcher (2016)
Engineering vertical morphology with nanoparticulate organic photovoltaic devicesOrganic Electronics, 32
-
S. Ulum, N. Holmes, M. Barr, A. Kilcoyne, Bill Gong, Xiaojing Zhou, W. Belcher, P. Dastoor (2013)
The role of miscibility in polymer:fullerene nanoparticulate organic photovoltaic devicesNano Energy, 2
-
Ning Li, J. Perea, T. Kassar, Moses Richter, Thomas Heumueller, G. Matt, Yi Hou, N. Güldal, Haiwei Chen, Shi Chen, S. Langner, Marvin Berlinghof, T. Unruh, C. Brabec (2017)
Abnormal strong burn-in degradation of highly efficient polymer solar cells caused by spinodal donor-acceptor demixingNature Communications, 8
-
V. Mihailetchi, J. Wildeman, P. Blom (2005)
Space-charge limited photocurrent.Physical review letters, 94 12
-
K. Landfester (2001)
The generation of nanoparticles in miniemulsions.Advanced Materials, 13
-
Juliane Kniepert, Ilja Lange, Jan Heidbrink, Jona Kurpiers, Thomas Brenner, L. Jan, Anton Koster, D. Neher (2015)
Effect of Solvent Additive on Generation, Recombination, and Extraction in PTB7:PCBM Solar Cells: A Conclusive Experimental and Numerical Simulation StudyJournal of Physical Chemistry C, 119
-
Barry Rand, Jan Genoe, P. Heremans, J. Poortmans (2007)
Solar cells utilizing small molecular weight organic semiconductorsProgress in Photovoltaics: Research and Applications, 15
-
M. Stephen, K. Genevičius, G. Juška, K. Arlauskas, R. Hiorns (2016)
Mini‐review: Charge Transport and its Characterisation using Photo‐CELIV in Bulk‐Heterojunction Solar CellsPolymer International
-
Timothy Gehan, M. Bag, L. Renna, Xiaobo Shen, Dana Algaier, P. Lahti, T. Russell, D. Venkataraman (2014)
Multiscale active layer morphologies for organic photovoltaics through self-assembly of nanospheres.Nano letters, 14 9
-
J. Tumbleston, B. Collins, Liqiang Yang, Andrew Stuart, E. Gann, Wei Ma, W. You, H. Ade (2014)
The influence of molecular orientation on organic bulk heterojunction solar cellsNature Photonics, 8
-
Christopher Proctor, Chunki Kim, D. Neher, Thuc‐Quyen Nguyen (2013)
Nongeminate Recombination and Charge Transport Limitations in Diketopyrrolopyrrole‐Based Solution‐Processed Small Molecule Solar CellsAdvanced Functional Materials, 23
-
Ye Huang, E. Kramer, A. Heeger, G. Bazan (2014)
Bulk heterojunction solar cells: morphology and performance relationships.Chemical reviews, 114 14
-
F. Colberts, M. Wienk, R. Janssen (2017)
Aqueous Nanoparticle Polymer Solar Cells: Effects of Surfactant Concentration and Processing on Device PerformanceACS Applied Materials & Interfaces, 9
-
Lie Chen, Chen Xie, Yiwang Chen (2014)
Self-Assembled Conjugated Polyelectrolyte–Ionic Liquid Crystal Complex as an Interlayer for Polymer Solar Cells: Achieving Performance Enhancement via Rapid Liquid Crystal-Induced Dipole OrientationMacromolecules, 47
-
Lien D'Olieslaeger, Geert Pirotte, Ilaria Cardinaletti, J. D’Haen, J. Manca, D. Vanderzande, Wouter Maes, A. Ethirajan (2017)
Eco-friendly fabrication of PBDTTPD:PC71BM solar cells reaching a PCE of 3.8% using water-based nanoparticle dispersionsOrganic Electronics, 42
-
S. Cowan, Anshuman Roy, A. Heeger (2010)
Recombination in polymer-fullerene bulk heterojunction solar cellsPhysical Review B, 82
-
N. Holmes, Kerry Burke, P. Sista, M. Barr, H. Magurudeniya, M. Stefan, A. Kilcoyne, Xiaojing Zhou, P. Dastoor, W. Belcher (2013)
Nano-domain behaviour in P3HT:PCBM nanoparticles, relating material properties to morphological changesSolar Energy Materials and Solar Cells, 117
-
H. Pierre, Noyes (1999)
COMMENT OF THE ‘SO NUCLEON-NUCLEON EFFECTIVE RANGE EXPANSION PAI&METERS* -
Chaohong Zhang, A. Mumyatov, S. Langner, J. Perea, T. Kassar, J. Min, Lili Ke, Haiwei Chen, K. Gerasimov, D. Anokhin, D. Ivanov, T. Ameri, Andreas Osvet, D. Susarova, T. Unruh, Ning Li, P. Troshin, C. Brabec (2017)
Overcoming the Thermal Instability of Efficient Polymer Solar Cells by Employing Novel Fullerene‐Based AcceptorsAdvanced Energy Materials, 7
-
Nicola Gasparini, Athanasios Katsouras, M. Prodromidis, Apostolos Avgeropoulos, Derya Baran, M. Salvador, S. Fladischer, E. Spiecker, C. Chochos, T. Ameri, C. Brabec (2015)
Photophysics of Molecular‐Weight‐Induced Losses in Indacenodithienothiophene‐Based Solar CellsAdvanced Functional Materials, 25
-
Yuhang Liu, Jingbo Zhao, Zhengke Li, Cheng Mu, Wei Ma, Huawei Hu, Kui Jiang, Haoran Lin, H. Ade, H. Yan (2014)
Aggregation and morphology control enables multiple cases of high-efficiency polymer solar cellsNature Communications, 5
-
S. Albrecht, W. Schindler, Jona Kurpiers, Juliane Kniepert, J. Blakesley, Ines Dumsch, S. Allard, K. Fostiropoulos, U. Scherf, D. Neher (2012)
On the Field Dependence of Free Charge Carrier Generation and Recombination in Blends of PCPDTBT/PC70BM: Influence of Solvent Additives.The journal of physical chemistry letters, 3 5
- Publisher
- Wiley
- Copyright
- © 2018 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim
- ISSN
- 1614-6832
- eISSN
- 1614-6840
- DOI
- 10.1002/aenm.201702857
- Publisher site
- See Article on Publisher Site
Abstract
The application of conjugated polymer and fullerene water‐based nanoparticles (NP) as ecofriendly inks for organic photovoltaics (OPVs) is reported. A low bandgap polymer diketopyrrolopyrrole–quinquethiophene (PDPP5T‐2) and the methanofullerene PC71BM are processed into three types of nanoparticles: pristine fullerene NPs, pristine polymer NPs, and mixed polymer:fullerene NPs, allowing the formation of bulk heterojunction (BHJ) composites with different domain sizes. Mild thermal annealing is required to melt the nanospheres and enable the formation of interconnected pathways within mixed phases. This BHJ is accompanied by a shrinkage of film, whereas the more compact layers show enhanced mobility. Consistently reduced recombination and better performance are found for mixed NP, containing both, the polymer and the fullerene within a single NP. The optimized solar cell processed by ultrasmall NPs delivers a power conversion efficiency of about 3.4%. This is among the highest values reported for aqueous processed OPVs but still lacks performance compared to those being processed from halogenated solvents. Incomplete crystallization is identified as the main root for reduced efficiency. It is nevertheless believed that postprocessing does not cut attraction from printing aqueous organic NP inks as a trendsetting strategy for the reliable and ecofriendly production of organic solar cells.
Journal
Advanced Energy Materials – Wiley
Published: Jan 1, 2018
Keywords: ; ; ;