Morphological and electrical control of fullerene dimerization determines organic photovoltaic stability
暂无分享,去创建一个
C. Brabec | M. Salvador | Thomas Heumueller | M. McGehee | H. Egelhaaf | Rongrong Cheacharoen | W. Nguyen | William R. Mateker | A. Distler | U. Fritze | M. Biele | M. Delius | William H. Nguyen
[1] G. Bazan,et al. Molecular Packing and Arrangement Govern the Photo-Oxidative Stability of Organic Photovoltaic Materials , 2015 .
[2] C. B. Nielsen,et al. Dual Function Additives: A Small Molecule Crosslinker for Enhanced Efficiency and Stability in Organic Solar Cells , 2015 .
[3] A. Tournebize,et al. The effect of polymer solubilizing side-chains on solar cell stability. , 2015, Physical chemistry chemical physics : PCCP.
[4] S. Forrest,et al. Photochemical origins of burn-in degradation in small molecular weight organic photovoltaic cells , 2015 .
[5] M. McGehee,et al. Minimal Long-Term Intrinsic Degradation Observed in a Polymer Solar Cell Illuminated in an Oxygen-Free Environment , 2015 .
[6] Zhe Li,et al. Enhancing Fullerene-Based Solar Cell Lifetimes by Addition of a Fullerene Dumbbell** , 2014, Angewandte Chemie.
[7] Timothy M. Burke,et al. Reducing burn-in voltage loss in polymer solar cells by increasing the polymer crystallinity , 2014 .
[8] S. Forrest,et al. Photodegradation of small-molecule organic photovoltaics , 2014 .
[9] C. Singh,et al. Influence of Thermal Annealing on PCDTBT:PCBM Composition Profiles , 2014 .
[10] Zhe Li,et al. Morphological stability and performance of polymer-fullerene solar cells under thermal stress: the impact of photoinduced PC60BM oligomerization. , 2014, ACS nano.
[11] Hans-Joachim Egelhaaf,et al. The Effect of PCBM Dimerization on the Performance of Bulk Heterojunction Solar Cells , 2014 .
[12] Alberto Salleo,et al. Toward bulk heterojunction polymer solar cells with thermally stable active layer morphology , 2014 .
[13] S. Forrest,et al. Intrinsic burn-in efficiency loss of small-molecule organic photovoltaic cells due to exciton-induced trap formation , 2013 .
[14] Tracey M. Clarke,et al. Photodegradation in Encapsulated Silole‐Based Polymer: PCBM Solar Cells Investigated using Transient Absorption Spectroscopy and Charge Extraction Measurements , 2013 .
[15] H. Hoppe,et al. Polymer solar cells with enhanced lifetime by improved electrode stability and sealing , 2013 .
[16] Milos Nesladek,et al. Influence of fullerene photodimerization on the PCBM crystallization in polymer: Fullerene bulk heterojunctions under thermal stress , 2013 .
[17] Zhenggang Huang,et al. Performance enhancement of fullerene-based solar cells by light processing , 2013, Nature Communications.
[18] Jia Wang,et al. Photochemical Transformation of Fullerenes , 2013 .
[19] Jean Manca,et al. Improved thermal stability of bulk heterojunctions based on side-chain functionalized poly(3-alkylthiophene) copolymers and PCBM , 2013 .
[20] John R. Tumbleston,et al. The Importance of Fullerene Percolation in the Mixed Regions of Polymer–Fullerene Bulk Heterojunction Solar Cells , 2013 .
[21] U. Scherf,et al. Mobility relaxation and electron trapping in a donor/acceptor copolymer , 2013 .
[22] J. Durrant,et al. Correlating triplet yield, singlet oxygen generation and photochemical stability in polymer/fullerene blend films. , 2013, Chemical communications.
[23] R. J. Kline,et al. Poly(3-hexylthiophene) and [6,6]-Phenyl-C61-butyric Acid Methyl Ester Mixing in Organic Solar Cells , 2012 .
[24] Zhi‐Xin Guo,et al. Dumb-belled PCBM derivative with better photovoltaic performance , 2012 .
[25] W. Marsden. I and J , 2012 .
[26] Sarah T. Turner,et al. Quantitative Analysis of Bulk Heterojunction Films Using Linear Absorption Spectroscopy and Solar Cell Performance , 2011 .
[27] S. Falke,et al. Raman spectroscopic identification of fullerene inclusions in polymer/fullerene blends , 2011 .
[28] Cheng-En Wu,et al. Enhanced performance and stability of a polymer solar cell by incorporation of vertically aligned, cross-linked fullerene nanorods. , 2011, Angewandte Chemie.
[29] Lionel Hirsch,et al. P3HT:PCBM, Best Seller in Polymer Photovoltaic Research , 2011, Advanced materials.
[30] S. Beaupré,et al. High Efficiency Polymer Solar Cells with Long Operating Lifetimes , 2011 .
[31] M. Dadmun,et al. A new model for the morphology of P3HT/PCBM organic photovoltaics from small-angle neutron scattering: rivers and streams. , 2011, ACS nano.
[32] G. Dennler,et al. Bulk heterojunction solar cells with thick active layers and high fill factors enabled by a bithiophene-co-thiazolothiazole push-pull copolymer , 2011 .
[33] Zhenan Bao,et al. Effects of Thermal Annealing Upon the Morphology of Polymer–Fullerene Blends , 2010 .
[34] Jan D'Haen,et al. Modeling the temperature induced degradation kinetics of the short circuit current in organic bulk heterojunction solar cells , 2010 .
[35] C. Brabec,et al. Nanomorphology and Charge Generation in Bulk Heterojunctions Based on Low‐Bandgap Dithiophene Polymers with Different Bridging Atoms , 2010 .
[36] Zhengguo Zhu,et al. Influence of the Bridging Atom on the Performance of a Low‐Bandgap Bulk Heterojunction Solar Cell , 2010, Advanced materials.
[37] Nelson E. Coates,et al. Bulk heterojunction solar cells with internal quantum efficiency approaching 100 , 2009 .
[38] T. Wågberg,et al. Photo-induced and resist-free imprint patterning of fullerene materials for use in functional electronics. , 2009, Journal of the American Chemical Society.
[39] E. Sheka. Donor–acceptor interaction and fullerene C60 dimerization , 2007 .
[40] T. Wågberg,et al. C60 Field-Effect Transistors: Effects of Polymerization on electronic Properties and Device Performance. , 2007 .
[41] A. M. Rao,et al. IR spectra of photopolymerized C60 films. Experimental and density functional theory study. , 2006, The journal of physical chemistry. B.
[42] Kevin Barraclough,et al. I and i , 2001, BMJ : British Medical Journal.
[43] J. Segura,et al. [60]Fullerene dimers , 2000 .
[44] J. Hummelen,et al. Photodimerization of a m-phenylenebis(arylmethanofullerene): The first rigorous proof for photochemical inter-fullerene [2+2] cycloaddition , 2000 .
[45] Takeuchi,et al. In situ high-resolution infrared spectroscopy of a photopolymerized C60 film. , 1996, Physical review. B, Condensed matter.
[46] A. M. Rao,et al. Photochemical transformation of C60 and C70 films , 1995 .
[47] Adams,et al. Polymerized C60 studied by first-principles molecular dynamics. , 1994, Physical review. B, Condensed matter.
[48] D. Dixon,et al. Dimerization of C60: The Formation of Dumbbell-Shaped C120 , 1994 .
[49] J. Menéndez,et al. Raman study of photoexcited C60 , 1993 .
[50] A. M. Rao,et al. Reaction mechanism for the photopolymerization of solid fullerene C60 , 1993 .
[51] P. Eklund,et al. Photo-dimerization kinetics in solid C60 films , 1993 .
[52] A. M. Rao,et al. Laser desorption mass spectrometry of photopolymerized fullerene (C60) films , 1993 .
[53] Ying Wang,et al. Photoinduced Polymerization of Solid C60 Films , 1993, Science.
[54] A. M. Rao,et al. Photo‐assisted structural transition and oxygen diffusion in solid C60 films , 1992 .
[55] Vaidhyanathan Ramamurthy,et al. Photochemical reactions of organic crystals , 1987 .
[56] G. Delacote,et al. Transfer integrals in metal-free phtalocyanine crystals , 1968 .