Research Cluster

Membranes, Composites, and Energy Materials

This cluster contains 811 public open-access papers related to membrane, composite, nanocomposite, solar cell, electrolyte, conducting, energy. Use it as a starting bibliography for method checks, literature review, and citation-backed page expansion.

1. D.R. Paul, Lloyd M. Robeson (2008). Polymer nanotechnology: Nanocomposites. Polymer. DOI: 10.1016/j.polymer.2008.04.017.Source: Polymer | OpenAlex cited-by count: 3239
2. Yuhang Liu, Jingbo Zhao, Zhengke Li, Cheng Mu, et al. (2014). Aggregation and morphology control enables multiple cases of high-efficiency polymer solar cells. Nature Communications. DOI: 10.1038/ncomms6293.Source: Nature Communications | OpenAlex cited-by count: 3084
3. Jeffrey R. Potts, Daniel R. Dreyer, Christopher W. Bielawski, Rodney S. Ruoff (2010). Graphene-based polymer nanocomposites. Polymer. DOI: 10.1016/j.polymer.2010.11.042.Source: Polymer | OpenAlex cited-by count: 3080
4. Bret D. Ulery, Lakshmi S. Nair, Cato T. Laurencin (2011). Biomedical applications of biodegradable polymers. Journal of Polymer Science Part B Polymer Physics. DOI: 10.1002/polb.22259.Source: Journal of Polymer Science Part B Polymer Physics | OpenAlex cited-by count: 2152
5. Zhicai He, Chengmei Zhong, Xun Huang, Wai‐Yeung Wong, et al. (2011). Simultaneous Enhancement of Open‐Circuit Voltage, Short‐Circuit Current Density, and Fill Factor in Polymer Solar Cells. Advanced Materials. DOI: 10.1002/adma.201103006.Source: Advanced Materials | OpenAlex cited-by count: 2116
6. Sarah R. Cowan, Anshuman Roy, Alan J. Heeger (2010). Recombination in polymer-fullerene bulk heterojunction solar cells. Physical Review B. DOI: 10.1103/physrevb.82.245207.Source: Physical Review B | OpenAlex cited-by count: 2041
7. Mathias Ulbricht (2006). Advanced functional polymer membranes. Polymer. DOI: 10.1016/j.polymer.2006.01.084.Source: Polymer | OpenAlex cited-by count: 1994
8. Huaxing Zhou, Liqiang Yang, Wei You (2012). Rational Design of High Performance Conjugated Polymers for Organic Solar Cells. Macromolecules. DOI: 10.1021/ma201648t.Source: Macromolecules | OpenAlex cited-by count: 1489
9. Haijun Bin, Liang Gao, Zhiguo Zhang, Yankang Yang, et al. (2016). 11.4% Efficiency non-fullerene polymer solar cells with trialkylsilyl substituted 2D-conjugated polymer as donor. Nature Communications. DOI: 10.1038/ncomms13651.Source: Nature Communications | OpenAlex cited-by count: 983
10. A. Manuel Stephan, Kee Suk Nahm (2006). Review on composite polymer electrolytes for lithium batteries. Polymer. DOI: 10.1016/j.polymer.2006.05.069.Source: Polymer | OpenAlex cited-by count: 950
11. J. Jancar, Jack F. Douglas, Francis W. Starr, Sanat K. Kumar, et al. (2010). Current issues in research on structure–property relationships in polymer nanocomposites. Polymer. DOI: 10.1016/j.polymer.2010.04.074.Source: Polymer | OpenAlex cited-by count: 901
12. Rachna Khurana, Jennifer L. Schaefer, Lynden A. Archer, Geoffrey W. Coates (2014). Suppression of Lithium Dendrite Growth Using Cross-Linked Polyethylene/Poly(ethylene oxide) Electrolytes: A New Approach for Practical Lithium-Metal Polymer Batteries. Journal of the American Chemical Society. DOI: 10.1021/ja502133j.Source: Journal of the American Chemical Society | OpenAlex cited-by count: 861
13. Taesu Kim, Jae-Han Kim, Tae Eui Kang, Changyeon Lee, et al. (2015). Flexible, highly efficient all-polymer solar cells. Nature Communications. DOI: 10.1038/ncomms9547.Source: Nature Communications | OpenAlex cited-by count: 842
14. Feng Wu, Manjusri Misra, Amar K. Mohanty (2021). Challenges and new opportunities on barrier performance of biodegradable polymers for sustainable packaging. Progress in Polymer Science. DOI: 10.1016/j.progpolymsci.2021.101395.Source: Progress in Polymer Science | OpenAlex cited-by count: 822
15. Shuwang Wu, Mutian Hua, Yousif Alsaid, Yingjie Du, et al. (2021). Poly(vinyl alcohol) Hydrogels with Broad‐Range Tunable Mechanical Properties via the Hofmeister Effect. Advanced Materials. DOI: 10.1002/adma.202007829.Source: Advanced Materials | OpenAlex cited-by count: 811
16. Chenkai Sun, Fei Pan, Haijun Bin, Jianqi Zhang, et al. (2018). A low cost and high performance polymer donor material for polymer solar cells. Nature Communications. DOI: 10.1038/s41467-018-03207-x.Source: Nature Communications | OpenAlex cited-by count: 806
17. Derong Lu, Congming Xiao, Shanjun Xu (2009). Starch-based completely biodegradable polymer materials. eXPRESS Polymer Letters. DOI: 10.3144/expresspolymlett.2009.46.Source: eXPRESS Polymer Letters | OpenAlex cited-by count: 737
18. Mattias Svensson, Fengling Zhang, Sjoerd Veenstra, Wiljan Verhees, et al. (2003). High‐Performance Polymer Solar Cells of an Alternating Polyfluorene Copolymer and a Fullerene Derivative. Advanced Materials. DOI: 10.1002/adma.200304150.Source: Advanced Materials | OpenAlex cited-by count: 734
19. Alex C. Mayer, Shawn R. Scully, Brian E. Hardin, Michael W. Rowell, et al. (2007). Polymer-based solar cells. Materials Today. DOI: 10.1016/s1369-7021(07)70276-6.Source: Materials Today | OpenAlex cited-by count: 698
20. Fuwen Zhao, Shuixing Dai, Yang Wu, Qianqian Zhang, et al. (2017). Single‐Junction Binary‐Blend Nonfullerene Polymer Solar Cells with 12.1% Efficiency. Advanced Materials. DOI: 10.1002/adma.201700144.Source: Advanced Materials | OpenAlex cited-by count: 693
21. Sunsun Li, Long Ye, Wenchao Zhao, Hongping Yan, et al. (2018). A Wide Band Gap Polymer with a Deep Highest Occupied Molecular Orbital Level Enables 14.2% Efficiency in Polymer Solar Cells. Journal of the American Chemical Society. DOI: 10.1021/jacs.8b02695.Source: Journal of the American Chemical Society | OpenAlex cited-by count: 690
22. Buong Woei Chieng, Nor Azowa Ibrahim, Wan Md Zin Wan Yunus, Mohd Zobir Hussein (2013). Poly(lactic acid)/Poly(ethylene glycol) Polymer Nanocomposites: Effects of Graphene Nanoplatelets. Polymers. DOI: 10.3390/polym6010093.Source: Polymers | OpenAlex cited-by count: 652
23. Research article (1996). Particulate-filled polymer composites. Polymer Testing. DOI: 10.1016/0142-9418(96)00004-9.Source: Polymer Testing | OpenAlex cited-by count: 628
24. Balázs Imre, Béla Pukánszky (2013). Compatibilization in bio-based and biodegradable polymer blends. European Polymer Journal. DOI: 10.1016/j.eurpolymj.2013.01.019.Source: European Polymer Journal | OpenAlex cited-by count: 595
25. K. Friedrich (2018). Polymer composites for tribological applications. Advanced Industrial and Engineering Polymer Research. DOI: 10.1016/j.aiepr.2018.05.001.Source: Advanced Industrial and Engineering Polymer Research | OpenAlex cited-by count: 556
26. L. Jan Anton Koster, V.D. Mihailetchi, Paul W. M. Blom (2006). Ultimate efficiency of polymer/fullerene bulk heterojunction solar cells. Applied Physics Letters. DOI: 10.1063/1.2181635.Source: Applied Physics Letters | OpenAlex cited-by count: 549
27. M. D. Ediger, James A. Forrest (2013). Dynamics near Free Surfaces and the Glass Transition in Thin Polymer Films: A View to the Future. Macromolecules. DOI: 10.1021/ma4017696.Source: Macromolecules | OpenAlex cited-by count: 510
28. Weiwei Li, Alice Furlan, Koen H. Hendriks, Martijn M. Wienk, et al. (2013). Efficient Tandem and Triple-Junction Polymer Solar Cells. Journal of the American Chemical Society. DOI: 10.1021/ja401434x.Source: Journal of the American Chemical Society | OpenAlex cited-by count: 508
29. Jiangshui Huang, Megan Juszkiewicz, Wim H. de Jeu, Enrique Cerda, et al. (2007). Capillary Wrinkling of Floating Thin Polymer Films. Science. DOI: 10.1126/science.1144616.Source: Science | OpenAlex cited-by count: 508
30. Yajie Zhong, Patrick O. Godwin, Yongcan Jin, Huining Xiao (2019). Biodegradable polymers and green-based antimicrobial packaging materials: A mini-review. Advanced Industrial and Engineering Polymer Research. DOI: 10.1016/j.aiepr.2019.11.002.Source: Advanced Industrial and Engineering Polymer Research | OpenAlex cited-by count: 499
31. Vera Bocharova, Alexei P. Sokolov (2020). Perspectives for Polymer Electrolytes: A View from Fundamentals of Ionic Conductivity. Macromolecules. DOI: 10.1021/acs.macromol.9b02742.Source: Macromolecules | OpenAlex cited-by count: 472
32. Yanran Zhao, Chuan Wu, Gang Peng, Xiaotian Chen, et al. (2015). A new solid polymer electrolyte incorporating Li10GeP2S12 into a polyethylene oxide matrix for all-solid-state lithium batteries. Journal of Power Sources. DOI: 10.1016/j.jpowsour.2015.09.111.Source: Journal of Power Sources | OpenAlex cited-by count: 452
33. Koji Fukao, Yoshihisa Miyamoto (2000). Glass transitions and dynamics in thin polymer films: Dielectric relaxation of thin films of polystyrene. Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics. DOI: 10.1103/physreve.61.1743.Source: Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics | OpenAlex cited-by count: 445
34. Jinhong Du, Jinbo Bai, Hui–Ming Cheng (2007). The present status and key problems of carbon nanotube based polymer composites. eXPRESS Polymer Letters. DOI: 10.3144/expresspolymlett.2007.39.Source: eXPRESS Polymer Letters | OpenAlex cited-by count: 439
35. Joon Seok Lee, Kyu Ha Choi, Han Do Ghim, Sam Soo Kim, et al. (2004). Role of molecular weight of atactic poly(vinyl alcohol) (PVA) in the structure and properties of PVA nanofabric prepared by electrospinning. Journal of Applied Polymer Science. DOI: 10.1002/app.20602.Source: Journal of Applied Polymer Science | OpenAlex cited-by count: 402
36. Steffen Fischer, Katrin Thümmler, Bert Volkert, Kay Hettrich, et al. (2008). Properties and Applications of Cellulose Acetate. Macromolecular Symposia. DOI: 10.1002/masy.200850210.Source: Macromolecular Symposia | OpenAlex cited-by count: 394
37. Jaleh Varshosaz, Marziyeh Jannesari, Mohammad Morshed, Maedeh Zamani (2011). Composite poly(vinyl alcohol)/poly(vinyl acetate) electrospun nanofibrous mats as a novel wound dressing matrix for controlled release of drugs. International Journal of Nanomedicine. DOI: 10.2147/ijn.s17595.Source: International Journal of Nanomedicine | OpenAlex cited-by count: 393
38. Kazuaki Kawashima, Yasunari Tamai, Hideo Ohkita, Itaru Osaka, et al. (2015). High-efficiency polymer solar cells with small photon energy loss. Nature Communications. DOI: 10.1038/ncomms10085.Source: Nature Communications | OpenAlex cited-by count: 393
39. Ning Li, José Darío Perea, Thaer Kassar, Moses Richter, et al. (2017). Abnormal strong burn-in degradation of highly efficient polymer solar cells caused by spinodal donor-acceptor demixing. Nature Communications. DOI: 10.1038/ncomms14541.Source: Nature Communications | OpenAlex cited-by count: 377
40. Zhiya Ma, Yueping Guan, Huizhou Liu (2005). Synthesis and characterization of micron‐sized monodisperse superparamagnetic polymer particles with amino groups. Journal of Polymer Science Part A Polymer Chemistry. DOI: 10.1002/pola.20803.Source: Journal of Polymer Science Part A Polymer Chemistry | OpenAlex cited-by count: 364
41. Jan Gilot, Ionuţ Barbu, Martijn M. Wienk, René A. J. Janssen (2007). The use of ZnO as optical spacer in polymer solar cells: Theoretical and experimental study. Applied Physics Letters. DOI: 10.1063/1.2784961.Source: Applied Physics Letters | OpenAlex cited-by count: 361
42. D. M. Koenhen, C.A. Smolders (1975). The determination of solubility parameters of solvents and polymers by means of correlations with other physical quantities. Journal of Applied Polymer Science. DOI: 10.1002/app.1975.070190423.Source: Journal of Applied Polymer Science | OpenAlex cited-by count: 351
43. Yan Jin, Kee Sung Han, Yuyan Shao, Maria L. Sushko, et al. (2020). Stabilizing Zinc Anode Reactions by Polyethylene Oxide Polymer in Mild Aqueous Electrolytes. Advanced Functional Materials. DOI: 10.1002/adfm.202003932.Source: Advanced Functional Materials | OpenAlex cited-by count: 349
44. Jan Gilot, Martijn M. Wienk, René A. J. Janssen (2007). Double and triple junction polymer solar cells processed from solution. Applied Physics Letters. DOI: 10.1063/1.2719668.Source: Applied Physics Letters | OpenAlex cited-by count: 348
45. Irem Erel-Unal, Svetlana A. Sukhishvili (2008). Hydrogen-Bonded Multilayers of a Neutral Polymer and a Polyphenol. Macromolecules. DOI: 10.1021/ma800186q.Source: Macromolecules | OpenAlex cited-by count: 344
46. Mohammed Mohammed, Anwar Ja’afar Mohamad Jawad, Aeshah M. Mohammed, Jawad K. Oleiwi, et al. (2023). Challenges and advancement in water absorption of natural fiber-reinforced polymer composites. Polymer Testing. DOI: 10.1016/j.polymertesting.2023.108083.Source: Polymer Testing | OpenAlex cited-by count: 343
47. Nidhi C. Dubey, Mario Leclerc (2011). Conducting polymers: Efficient thermoelectric materials. Journal of Polymer Science Part B Polymer Physics. DOI: 10.1002/polb.22206.Source: Journal of Polymer Science Part B Polymer Physics | OpenAlex cited-by count: 341
48. Yikun Guo, Yunke Li, Omar Awartani, Han Han, et al. (2017). Improved Performance of All‐Polymer Solar Cells Enabled by Naphthodiperylenetetraimide‐Based Polymer Acceptor. Advanced Materials. DOI: 10.1002/adma.201700309.Source: Advanced Materials | OpenAlex cited-by count: 327
49. Lei Zhu, Wenkai Zhong, Chaoqun Qiu, Bosai Lyu, et al. (2019). Aggregation‐Induced Multilength Scaled Morphology Enabling 11.76% Efficiency in All‐Polymer Solar Cells Using Printing Fabrication. Advanced Materials. DOI: 10.1002/adma.201902899.Source: Advanced Materials | OpenAlex cited-by count: 324
50. James Njuguna, Krzysztof Pielichowski, S. Desai (2008). Nanofiller‐reinforced polymer nanocomposites. Polymers for Advanced Technologies. DOI: 10.1002/pat.1074.Source: Polymers for Advanced Technologies | OpenAlex cited-by count: 320
51. Ramanan Krishnamoorti, Richard A. Vaia (2007). Polymer nanocomposites. Journal of Polymer Science Part B Polymer Physics. DOI: 10.1002/polb.21319.Source: Journal of Polymer Science Part B Polymer Physics | OpenAlex cited-by count: 319
52. Zhiqiang Liang, Qifeng Zhang, Orawan Wiranwetchayan, Junting Xi, et al. (2012). Effects of the Morphology of a ZnO Buffer Layer on the Photovoltaic Performance of Inverted Polymer Solar Cells. Advanced Functional Materials. DOI: 10.1002/adfm.201101915.Source: Advanced Functional Materials | OpenAlex cited-by count: 319
53. Weiwei Li, Koen H. Hendriks, W. S. Christian Roelofs, Young-Ju Kim, et al. (2013). Efficient Small Bandgap Polymer Solar Cells with High Fill Factors for 300 nm Thick Films. Advanced Materials. DOI: 10.1002/adma.201300017.Source: Advanced Materials | OpenAlex cited-by count: 316
54. Zhiqiang Liang, Qifeng Zhang, Lin Jiang, Guozhong Cao (2015). ZnO cathode buffer layers for inverted polymer solar cells. Energy & Environmental Science. DOI: 10.1039/c5ee02510a.Source: Energy & Environmental Science | OpenAlex cited-by count: 314
55. Weiwei Li, Koen H. Hendriks, Alice Furlan, W. S. Christian Roelofs, et al. (2013). Universal Correlation between Fibril Width and Quantum Efficiency in Diketopyrrolopyrrole-Based Polymer Solar Cells. Journal of the American Chemical Society. DOI: 10.1021/ja4101003.Source: Journal of the American Chemical Society | OpenAlex cited-by count: 314
56. Frank W. Altena, C.A. Smolders (1982). Calculation of liquid-liquid phase separation in a ternary system of a polymer in a mixture of a solvent and a nonsolvent. Macromolecules. DOI: 10.1021/ma00234a008.Source: Macromolecules | OpenAlex cited-by count: 313
57. Jolanta Wróblewska-Krepsztul, Tomasz Rydzkowski, Gabriel Borowski, Mieczysław Szczypiński, et al. (2018). Recent progress in biodegradable polymers and nanocomposite-based packaging materials for sustainable environment. International Journal of Polymer Analysis and Characterization. DOI: 10.1080/1023666x.2018.1455382.Source: International Journal of Polymer Analysis and Characterization | OpenAlex cited-by count: 312
58. Bivash Dasgupta, Shang-You Tee, John C. Crocker, Barbara J. Frisken, et al. (2002). Microrheology of polyethylene oxide using diffusing wave spectroscopy and single scattering. Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics. DOI: 10.1103/physreve.65.051505.Source: Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics | OpenAlex cited-by count: 293
59. Gaurav Lalwani, Allan M. Henslee, Behzad Farshid, Liangjun Lin, et al. (2013). Two-Dimensional Nanostructure-Reinforced Biodegradable Polymeric Nanocomposites for Bone Tissue Engineering. Biomacromolecules. DOI: 10.1021/bm301995s.Source: Biomacromolecules | OpenAlex cited-by count: 290
60. Saeed Doroudiani, Chul B. Park, Mark T. Kortschot (1996). Effect of the crystallinity and morphology on the microcellular foam structure of semicrystalline polymers. Polymer Engineering and Science. DOI: 10.1002/pen.10664.Source: Polymer Engineering and Science | OpenAlex cited-by count: 290
61. Osiris W. Guirguis, Manal T. H. Moselhey (2012). Thermal and structural studies of poly (vinyl alcohol) and hydroxypropyl cellulose blends. Natural Science. DOI: 10.4236/ns.2012.41009.Source: Natural Science | OpenAlex cited-by count: 284
62. Karin Jacobs, Stephan Herminghaus, Klaus Mecke (1998). Thin Liquid Polymer Films Rupture via Defects. Langmuir. DOI: 10.1021/la970954b.Source: Langmuir | OpenAlex cited-by count: 280
63. Christopher M. Proctor, Jonathan Rivnay, George G. Malliaras (2016). Understanding volumetric capacitance in conducting polymers. Journal of Polymer Science Part B Polymer Physics. DOI: 10.1002/polb.24038.Source: Journal of Polymer Science Part B Polymer Physics | OpenAlex cited-by count: 274
64. Weiwei Li, W. S. Christian Roelofs, Martijn M. Wienk, René A. J. Janssen (2012). Enhancing the Photocurrent in Diketopyrrolopyrrole-Based Polymer Solar Cells via Energy Level Control. Journal of the American Chemical Society. DOI: 10.1021/ja305358z.Source: Journal of the American Chemical Society | OpenAlex cited-by count: 267
65. Brian J. Landi, Ryne P. Raffaelle, Stephanie L. Castro, Sheila G. Bailey (2005). Single‐wall carbon nanotube–polymer solar cells. Progress in Photovoltaics Research and Applications. DOI: 10.1002/pip.604.Source: Progress in Photovoltaics Research and Applications | OpenAlex cited-by count: 267
66. Tinashe V. M. Ndoro, Evangelos Voyiatzis, Azadeh Ghanbari, Doros N. Theodorou, et al. (2011). Interface of Grafted and Ungrafted Silica Nanoparticles with a Polystyrene Matrix: Atomistic Molecular Dynamics Simulations. Macromolecules. DOI: 10.1021/ma102833u.Source: Macromolecules | OpenAlex cited-by count: 265
67. Nicolas Jouault, P. Vallat, Florent Dalmas, Sylvère Saïd, et al. (2009). Well-Dispersed Fractal Aggregates as Filler in Polymer−Silica Nanocomposites: Long-Range Effects in Rheology. Macromolecules. DOI: 10.1021/ma801908u.Source: Macromolecules | OpenAlex cited-by count: 263
68. Xi Liu, Chaohong Zhang, Chunhui Duan, Mengmeng Li, et al. (2018). Morphology Optimization via Side Chain Engineering Enables All-Polymer Solar Cells with Excellent Fill Factor and Stability. Journal of the American Chemical Society. DOI: 10.1021/jacs.8b05038.Source: Journal of the American Chemical Society | OpenAlex cited-by count: 261
69. Ye‐Jin Hwang, Haiyan Li, Brett A. E. Courtright, Selvam Subramaniyan, et al. (2015). Nonfullerene Polymer Solar Cells with 8.5% Efficiency Enabled by a New Highly Twisted Electron Acceptor Dimer. Advanced Materials. DOI: 10.1002/adma.201503801.Source: Advanced Materials | OpenAlex cited-by count: 257
70. Ying Diao, Yan Zhou, Tadanori Kurosawa, Leo Shaw, et al. (2015). Flow-enhanced solution printing of all-polymer solar cells. Nature Communications. DOI: 10.1038/ncomms8955.Source: Nature Communications | OpenAlex cited-by count: 250
71. Jiaqi Du, Ke Hu, Jinyuan Zhang, Lei Meng, et al. (2021). Polymerized small molecular acceptor based all-polymer solar cells with an efficiency of 16.16% via tuning polymer blend morphology by molecular design. Nature Communications. DOI: 10.1038/s41467-021-25638-9.Source: Nature Communications | OpenAlex cited-by count: 248
72. Bethwel K. Tarus, Nermin Fadel, Affaf Al-Oufy, Magdi El Messiry (2016). Effect of polymer concentration on the morphology and mechanical characteristics of electrospun cellulose acetate and poly (vinyl chloride) nanofiber mats. Alexandria Engineering Journal. DOI: 10.1016/j.aej.2016.04.025.Source: Alexandria Engineering Journal | OpenAlex cited-by count: 245
73. Xiaodan Gu, Yan Zhou, Kevin L. Gu, Tadanori Kurosawa, et al. (2017). Roll‐to‐Roll Printed Large‐Area All‐Polymer Solar Cells with 5% Efficiency Based on a Low Crystallinity Conjugated Polymer Blend. Advanced Energy Materials. DOI: 10.1002/aenm.201602742.Source: Advanced Energy Materials | OpenAlex cited-by count: 245
74. Cheol Park, J. F. G. Wilkinson, Sumanth Banda, Zoubeida Ounaies, et al. (2006). Aligned single‐wall carbon nanotube polymer composites using an electric field. Journal of Polymer Science Part B Polymer Physics. DOI: 10.1002/polb.20823.Source: Journal of Polymer Science Part B Polymer Physics | OpenAlex cited-by count: 241
75. Lun Si, Michael V. Massa, Kari Dalnoki‐Veress, Hugh R. Brown, et al. (2005). Chain Entanglement in Thin Freestanding Polymer Films. Physical Review Letters. DOI: 10.1103/physrevlett.94.127801.Source: Physical Review Letters | OpenAlex cited-by count: 240
76. Matthias Bartholmai, Bernhard Schartel (2004). Layered silicate polymer nanocomposites: new approach or illusion for fire retardancy? Investigations of the potentials and the tasks using a model system. Polymers for Advanced Technologies. DOI: 10.1002/pat.483.Source: Polymers for Advanced Technologies | OpenAlex cited-by count: 239
77. Nan Zhou, Hui Lin, Sylvia J. Lou, Xinge Yu, et al. (2013). Morphology‐Performance Relationships in High‐Efficiency All‐Polymer Solar Cells. Advanced Energy Materials. DOI: 10.1002/aenm.201300785.Source: Advanced Energy Materials | OpenAlex cited-by count: 239
78. Roar R. Søndergaard, Martin Helgesen, Mikkel Jørgensen, Frederik C. Krebs (2010). Fabrication of Polymer Solar Cells Using Aqueous Processing for All Layers Including the Metal Back Electrode. Advanced Energy Materials. DOI: 10.1002/aenm.201000007.Source: Advanced Energy Materials | OpenAlex cited-by count: 233
79. Scott T. Knauert, Jack F. Douglas, Francis W. Starr (2007). The effect of nanoparticle shape on polymer‐nanocomposite rheology and tensile strength. Journal of Polymer Science Part B Polymer Physics. DOI: 10.1002/polb.21176.Source: Journal of Polymer Science Part B Polymer Physics | OpenAlex cited-by count: 232
80. Alexandra D. Easley, Ting Ma, Chikaodinaka I. Eneh, Junyeong Yun, et al. (2021). A practical guide to quartz crystal microbalance with dissipation monitoring of thin polymer films. Journal of Polymer Science. DOI: 10.1002/pol.20210324.Source: Journal of Polymer Science | OpenAlex cited-by count: 225
81. Thomas R. Andersen, Thue T. Larsen‐Olsen, Birgitta Andreasen, Arvid P.L. Böttiger, et al. (2011). Aqueous Processing of Low-Band-Gap Polymer Solar Cells Using Roll-to-Roll Methods. ACS Nano. DOI: 10.1021/nn200933r.Source: ACS Nano | OpenAlex cited-by count: 224
82. Weiwei Li, Koen H. Hendriks, Alice Furlan, W. S. Christian Roelofs, et al. (2013). Effect of the Fibrillar Microstructure on the Efficiency of High Molecular Weight Diketopyrrolopyrrole‐Based Polymer Solar Cells. Advanced Materials. DOI: 10.1002/adma.201304360.Source: Advanced Materials | OpenAlex cited-by count: 223
83. Han Yu, Mingao Pan, Rui Sun, Indunil Agunawela, et al. (2021). Regio‐Regular Polymer Acceptors Enabled by Determined Fluorination on End Groups for All‐Polymer Solar Cells with 15.2 % Efficiency. Angewandte Chemie International Edition. DOI: 10.1002/anie.202016284.Source: Angewandte Chemie International Edition | OpenAlex cited-by count: 220
84. Dries Vaes, Peter Van Puyvelde (2021). Semi-crystalline feedstock for filament-based 3D printing of polymers. Progress in Polymer Science. DOI: 10.1016/j.progpolymsci.2021.101411.Source: Progress in Polymer Science | OpenAlex cited-by count: 219
85. Zhaojun Li, Xiaofeng Xu, Wei Zhang, Xiangyi Meng, et al. (2017). 9.0% power conversion efficiency from ternary all-polymer solar cells. Energy & Environmental Science. DOI: 10.1039/c7ee01858d.Source: Energy & Environmental Science | OpenAlex cited-by count: 214
86. Reza Arjmandi, Azman Hassan, Khaliq Majeed, Zainoha Zakaria (2015). Rice Husk Filled Polymer Composites. International Journal of Polymer Science. DOI: 10.1155/2015/501471.Source: International Journal of Polymer Science | OpenAlex cited-by count: 213
87. Xiaoyan Du, Thomas Heumueller, Wolfgang Gruber, Osbel Almora, et al. (2020). Unraveling the Microstructure‐Related Device Stability for Polymer Solar Cells Based on Nonfullerene Small‐Molecular Acceptors. Advanced Materials. DOI: 10.1002/adma.201908305.Source: Advanced Materials | OpenAlex cited-by count: 213
88. Bing Guo, Wanbin Li, Xia Guo, Xiangyi Meng, et al. (2017). High Efficiency Nonfullerene Polymer Solar Cells with Thick Active Layer and Large Area. Advanced Materials. DOI: 10.1002/adma.201702291.Source: Advanced Materials | OpenAlex cited-by count: 213
89. R. Fayt, R. Jérôme, Ph. Teyssié (1989). Molecular design of multicomponent polymer systems. XIV. Control of the mechanical properties of polyethylene–polystyrene blends by block copolymers. Journal of Polymer Science Part B Polymer Physics. DOI: 10.1002/polb.1989.090270405.Source: Journal of Polymer Science Part B Polymer Physics | OpenAlex cited-by count: 208
90. Ksenia Timachova, Hiroshi Watanabe, Nitash P. Balsara (2015). Effect of Molecular Weight and Salt Concentration on Ion Transport and the Transference Number in Polymer Electrolytes. Macromolecules. DOI: 10.1021/acs.macromol.5b01724.Source: Macromolecules | OpenAlex cited-by count: 200
91. Robert S. Hoy, Mark O. Robbins (2006). Strain hardening of polymer glasses: Effect of entanglement density, temperature, and rate. Journal of Polymer Science Part B Polymer Physics. DOI: 10.1002/polb.21012.Source: Journal of Polymer Science Part B Polymer Physics | OpenAlex cited-by count: 199
92. Vahid Vajihinejad, Sarang P. Gumfekar, Behnaz Bazoubandi, Zahra Rostami Najafabadi, et al. (2018). Water Soluble Polymer Flocculants: Synthesis, Characterization, and Performance Assessment. Macromolecular Materials and Engineering. DOI: 10.1002/mame.201800526.Source: Macromolecular Materials and Engineering | OpenAlex cited-by count: 199
93. Kuldeep Singh, Anil Ohlan, Parveen Saini, S.K. Dhawan (2007). Poly (3,4‐ethylenedioxythiophene) <i>γ</i>‐Fe₂O₃ polymer composite–super paramagnetic behavior and variable range hopping 1D conduction mechanism–synthesis and characterization. Polymers for Advanced Technologies. DOI: 10.1002/pat.1003.Source: Polymers for Advanced Technologies | OpenAlex cited-by count: 192
94. Lei Zheng, Sheng Hong, Grégoire Cardoen, Engin Burgaz, et al. (2004). Polymer Nanocomposites through Controlled Self-Assembly of Cubic Silsesquioxane Scaffolds. Macromolecules. DOI: 10.1021/ma048557c.Source: Macromolecules | OpenAlex cited-by count: 192
95. Chris Groves, Obadiah G. Reid, David S. Ginger (2010). Heterogeneity in Polymer Solar Cells: Local Morphology and Performance in Organic Photovoltaics Studied with Scanning Probe Microscopy. Accounts of Chemical Research. DOI: 10.1021/ar900231q.Source: Accounts of Chemical Research | OpenAlex cited-by count: 192
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