최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Current photovoltaic research = 한국태양광발전학회논문지, v.11 no.3, 2023년, pp.79 - 86
윤동환 (나노신소재융합공학과, 경상국립대학교) , 신광용 (나노신소재융합공학과, 경상국립대학교) , 정윤혜 (나노신소재융합공학과, 경상국립대학교) , 하영우 (나노신소재융합공학과, 경상국립대학교) , 김기환 (나노신소재융합공학과, 경상국립대학교)
As we strive to mitigate the environmental impact caused by the use of fossil fuels, the exploration of alternative energy sources has gained significant attention. Solar energy, in particular, has emerged as a promising solution due to its eco-friendly nature and virtually limitless availability. A...
Changhyun Pang, Geunhee Park, Dong-geun Jung, Heeyeop?Chae, "Recent Development Status of Organic Solar Cells,"?Applied Science and Convergence Technology, 16.3, 167-171 (2007).
Yu, G., Gao, J., Hummelen, J. C., Wudl, F., Heeger, A. J.,?"Polymer photovoltaic cells: enhanced efficiencies via a network?of internal donor-acceptor heterojunctions," Science, 270(5243), 1789-1791 (1995).
Wang, X., Perzon, E., Delgado, J. L., de la Cruz, P., Zhang, F.,?Langa, F., Inganas, O., "Infrared photocurrent spectral response?from plastic solar cell with low-band-gap polyfluorene and?fullerene derivative," Applied physics letters, 85(21), 5081-5083 (2004).
Won Suk Shin, Sung-Ho Jin, "Recent Development of Polymer?Solar Cells," Polymer Science and Technology, 17(4), 416-424 (2006).
Ma, W., Yang, C., Gong, X., Lee, K., Heeger, A. J., "Thermally?stable, efficient polymer solar cells with nanoscale control of the?interpenetrating network morphology," Advancsed functional?materials, 15(10), 1617-1622 (2005).
Tang, Ching W., "Two-layer organic photovoltaic cell," Applied?physics letters, 48(2), 183-185 (1986).
Kim, G. A., Yun, D., Park, M. J., Gong, M., Park, K. H.,?Jeong, D. W., Kim, G. H., "Utilize the UV-Visible Region?for Reduction of NO by Methylene Blue-Doped TiO2 for?Photocatalysis," Transactions on Electrical and Electronic?Materials, 23(6), 588-594 (2022).
Wohrle, Dieter, Dieter Meissner, "Organic solar cells," Advanced?Materials, 3(3), 129-138 (1991).
Nelson, Jenny, "Organic photovoltaic films," Current Opinion?in Solid State and Materials Science, 6(1), 87-95 (2002).
Yu-eun Kim, Gi-Hwan Kim, "Trend Efficiency of Organic Solar?Cells with Respect to the Types of Photoactive Layer," J. Korean?Inst. Electr. Electron. Mater. Eng, 35(6), 581-593 (2022).
Lee HK, Song CE, Lee SK, Lee JC, Shin WS, "Trends of?Organic Solar Cell Development," Korean Industrial Chemistry?News, 20(2), 36-58 (2017).
Bi, P., Zhang, S., Wang, J., Ren, J., Hou, J., "Progress in?organic solar cells: materials, physics and device engineering," Chinese Journal of Chemistry, 39(9), 2607-2625 (2021).
Yu, G., Alan J. Heeger, "Charge separation and photovoltaic?conversion in polymer composites with internal donor/acceptor?heterojunctions," Journal of Applied Physics, 78(7), 4510-4515 (1995).
Li, Gang, Rui Zhu, Yang Yang, "Polymer solar cells," Nature?photonics, 6(3), 153-161 (2012).
Ahn Seung Kyu, Shin Kee Shik Yoon Kyung Hoon, "Performance?Evaluation Technique for Solar Cells (Measurement?and Correction)," Polymer Science and Technology, 22(6), 570-576 (2011).
Thompson, B. C., Frechet, J. M., "Polymer-fullerene composite?solar cells," Angewandte chemie international edition, 47(1), 58-77 (2008).
Gereanu, A. G., Sartorio, C., Bonasera, A., Giuliano, G.,?Cataldo, S., Scopelliti, M., ... Pignataro, B., "Pseudo-planar?organic heterojunc tions by sequential printing of quasi-miscible?inks," Coatings, 11(5), 586 (2021).
Halls, J. J., Pichler, K., Friend, R. H., Moratti, S. C., Holmes, A.?B., "Exciton diffusion and dissociation in a poly (p-phenylenevinylene)/C60 heterojunction photovoltaic cell," Applied Physics Letters, 68(22), 3120-3122 (1996).
Mikhnenko, O. V., Blom, P. W., Nguyen, T. Q., "Exciton?diffusion in organic semiconductors," Energy & Environmental?Science, 8(7), 1867-1888 (2015).
Zhang, Y., Li, G., "Functional third components in nonfullerene?acceptor-based ternary organic solar cells," Accounts of Materials?Research, 1(2), 158-171 (2020).
Yuan, J., Zhang, Y., Zhou, L., Zhang, G., Yip, H. L., Lau, T.?K., ... Zou, Y., "Single-junction organic solar cell with over?15% efficiency using fused-ring acceptor with electron deficient?core," Joule, 3(4), 1140-1151 (2019).
Qin, Y., Balar, N., Peng, Z., Gadisa, A., Angunawela, I., Bagui,?A., ... Ade, H., "The performance-stability conundrum of?BTP-based organic solar cells," Joule, 5(8), 2129-2147 (2021).
Ye, L., Collins, B. A., Jiao, X., Zhao, J., Yan, H., Ade, H.,?"Miscibility-function relations in organic solar cells: significance?of optimal miscibility in relation to percolation," Advanced?Energy Materials, 8(28), 1703058 (2018).
Piersimoni, F., Degutis, G., Bertho, S., Vandewal, K., Spoltore,?D., Vangerven, T., Drijkonin., Van Bael, MK., Hardy, A.,?D'Haen, J., Maes, W., Vanderzande, D., Nesladek, M., Manca.?J., "Influence of fullerene photodimerization on the PCBM?crystallization in polymer: fullerene bulk heterojunctions under?thermal stress," Journal of Polymer Science Part B: Polymer?Physics, 51(16), 1209-1214 (2013).
Groves, C., "Suppression of geminate charge recombination in?organic photovoltaic devices with a cascaded energy heterojunction,"?Energy & Environmental Science, 6(5), 1546-1551 (2013).
J'rgensen, M., Norrman, K., Gevorgyan, S. A., Tromholt, T.,?Andreasen, B., Krebs, F. C., "Stability of polymer solar cells,"?Advanced materials, 24(5), 580-612 (2012).
Lai, Y. Y., Cheng, Y. J., Hsu, C. S., "Applications of functional?fullerene materials in polymer solar cells," Energy & Environmental?Science, 7(6), 1866-1883 (2014).
Nielsen, C. B., Holliday, S., Chen, H. Y., Cryer, S. J., McCulloch,?I., "Non-fullerene electron acceptors for use in organic solar?cells," Accounts of chemical research, 48(11), 2803-2812 (2015).
Li, H., Hwang, Y. J., Courtright, B. A., Eberle, F. N., Subramaniyan,?S., Jenekhe, S. A., "Fine-tuning the 3D structure of nonfullerene?electron acceptors toward high-performance polymer solar?cells," Advanced materials, 27(21), 3266-3272 (2015).
Proctor, C. M., Kuik, M., Nguyen, T.Q., "Charge carrier?recombination in organic solar cells," Progress in Polymer?Science, 38(12), 1941-1960 (2013).
Pivrikas, A., Sariciftci, N. S., Juska, G., Osterbacka, R., "A?review of charge transport and recombination in polymer/?fullerene organic solar cells," Progress in Photovoltaics: Research?and Applications, 15(8), 677-696 (2007).
Ghasemi, M., Hu, H., Peng, Z., Rech, J. J., Angunawela, I.,?Carpenter, J. H., Stuard, S.J., Wadsworth, A., McCulloch, I,.?You, W., Ade, H., "Delineation of thermodynamic and kinetic?factors that control stability in non-fullerene organic solar?cells," Joule, 3(5), 1328-1348 (2019).
Tu, S., Lin, X., Xiao, L., Zhen, H., Wang, W., Ling, Q.,?"Boosting the overall stability of organic solar cells by crosslinking?vinyl-functionalized polymer derived from PM6," Materials?Chemistry Frontiers, 6(9), 1150-1160 (2022).
Li, N., Perea, J. D., Kassar, T., Richter, M., Heumueller, T.,?Matt, G. J., Hou, Y., Guldal, N.S., Chen, H., Chen, S., Langner,?S., Berlinghof, M., Unruh, T., Brabec, C. J., "Abnormal strong?burn-in degradation of highly efficient polymer solar cells caused?by spinodal donor-acceptor demixing," Nature communications, 8(1), 14541 (2017).
Lee, J., Kim, J. W., Park, S. A., Son, S. Y., Choi, K., Lee, W.,?Kim, W., Kim, J. Y., Park, T., "Study of burn-in loss in green?solvent-processed ternary blended organic photovoltaics derived?from UV-crosslinkable semiconducting polymer s and nonfullerene?acceptors," Advanced Energy Materials, 9(34), 1901829 (2019).
Li, S., Zhang, R., Zhang, M., Yao, J., Peng, Z., Chen, Q.,?Zhang, C., Chang, B., Bai, Yang., Fu, H., Ouyang, Yanni.,?Zhang, C., Steele, J. A., Alshahrani, T., Roeffaers, M. B. J.,?Solano, E., Meng, L., Gao, F., Li, Y., Zhang, Z. G., "Tethered?Small-Molecule Acceptors Simultaneously Enhance the Efficiency?and Stability of Polymer Solar Cells," Advanced Materials, 35(2), 2206563 (2023).
Zhang, C., Zhang, M., Zhou, Q., Chen, S., Kim, S., Yao, J.,?Zhang, Z., Bai, Y., Chen, Q., Chang, B., Fu, H., Xue, L.,?Wang, C., Zhang, Z. G., "Diffusion-Limited Accepter Alloy?Enables Highly Efficient and Stable Organic Solar Cells,"?Advanced Functional Materials, 2214392 (2023).
Ghasemi, M., Balar, N., Peng, Z., Hu, H., Qin, Y., Kim, T.,?Rech, J. J., Bidwell, M., Mask, Walker., McCulloch, I., You,?W., Amassian, A., Risko, C., O'Connor, B. T., Ade, H., "A molecular interaction-diffusion framework for predicting organic?solar cell stability," Nature materials, 20(4), 525-532 (2021).
Zhang, W., Huang, J., Xu, J., Han, M., Su, D., Wu, N., Zhang,?C., Xu, A., Zhan, C., "Phthalimide polymer donor guests enable?over 17% efficient organic solar cells via parallel-like ternary?and quaternary strategies," Advanced Energy Materials, 10(32), 2001436 (2020).
Yan, C., Barlow, S., Wang, Z., Yan, H., Jen, A. K. Y., Marder,?S. R., Zhan, X., "Non-fullerene acceptors for organic solar?cells," Nature Reviews Materials, 3(3), 1-19 (2018).
Guo, Q., Guo, Q., Geng, Y., Tang, A., Zhang, M., Du, M.,?Sun, X., Zhou, E., "Recent advances in PM6: Y6-based organic?solar cells," Materials Chemistry Frontiers, 5(8), 3257-3280 (2021).
Pan, M. A., Lau, T. K., Tang, Y., Wu, Y. C., Liu, T., Li, K.,?Chen, M. C., Lu, X., Ma, W., Zhan, C., "16.7%-efficiency ternary?blended organic photovoltaic cells with PCBM as the acceptor?additive to increase the open-circuit voltage and phase purity,"?Journal of Materials Chemistry A, 7(36), 20713-20722 (2019).
Yu, L., Zhang, M., Tang, J., Li, R., Xu, X., Peng, Q., "Wide?Bandgap Perylene Diimide Derivatives as an Effective Third?Component for Parallel Connected Ternary Blend Polymer?Solar Cells," Chemistry of Materials, 33(18), 7396-7407 (2021).
Yan, T., Ge, J., Lei, T., Zhang, W., Song, W., Fanady, B., ...?Ge, Z., "16.55% efficiency ternary organic solar cells enabled?by incorporating a small molecular donor," Journal of?Materials Chemistry A, 7(45), 25894-25899 (2019).
Yan, C., Tang, H., Ma, R., Zhang, M., Liu, T., Lv, J., Huang,?J., Yang, Y. K., Xu, T., Kan, Z., Yan, He., Liu, F., Lu, S., Li,?G., "Synergy of liquid-crystalline small-molecule and polymeric?donors delivers uncommon morphology evolution and 16.6%?efficiency organic photovoltaics," Advanced Science, 7(15), 2000149 (2020).
Ni, M. Y., Leng, S. F., Liu, H., Yang, Y. K., Li, Q. H., Sheng,?C. Q., Lu, X., Liu, F., Wan, J. H., "Ternary organic solar cells?with 16.88% efficiency enabled by a twisted perylene diimide?derivative to enhance the open-circuit voltage," Journal of?Materials Chemistry C, 9(11), 3826-3834 (2021).
Liu, F., Zhou, L., Liu, W., Zhou, Z., Yue, Q., Zheng, W., Sun,?R., Liu, W., Xu, S., Fan, H., Feng, L., Yi, Y., Zhang, W., Zhu,?X., "Organic solar cells with 18% efficiency enabled by an alloy?acceptor: a two-in-one strategy," Advanced Materials, 33(27), 2100830 (2021).
Xiong, M., Wu, J., Fan, Q., Liu, Q., Lv, J., Ou, X., Guo, X.,?Zhang, M., "Ternary organic solar cells with improved efficiency?and stability enabled by compatible dual-acceptor strategy,"?Organic Electronics, 96, 106227 (2021).
Zhang, S., Ma, X., Xu, C., Xu, W., Jeong, S. Y., Woo, H. Y.,?Zhou, Z., Zhang, X., Zhang, F., "Boosted efficiency over 18.1%?of polymer solar cells by employing large extinction coefficients?material as the third component," Macromolecular Rapid?Communi cations, 43(15), 2200345 (2022).
Chen, J., Cao, J., Liu, L., Xie, L., Zhou, H., Zhang, J., Zhang,?K., Xiao, M., Huang, F., "Layer-by-layer processed PM6: Y6-?based stable ternary polymer solar cells with improved efficiency?over 18% by incorporating an asymmetric thieno[3,2-b] indole?-based acceptor," Advanced Functional Materials, 32(25), 2200629 (2022).
Yin, Y., Zhan, L., Liu, M., Yang, C., Guo, F., Liu, Y., Gao, S., Zhao,?L., Chen, H., Zhang, Y., "Boosting photovoltaic performance?of ternary organic solar cells by integrating a multi-functional?guest acceptor," Nano Energy, 90, 106538 (2021).
An, Q., Wang, J., Gao, W., Ma, X., Hu, Z., Gao, J., Xu, C.,?Hao, M., Zhang, X., Yang, C., Zhang, F., "Alloy-like ternary?polymer solar cells with over 17.2% efficiency," Science Bulletin, 65(7), 538-545 (2020).
Zhan, L., Li, S., Lau, T. K., Cui, Y., Lu, X., Shi, M., Li, C. Z.,?Li, H., Hou, J., Chen, H., "Over 17% efficiency ternary organic?solar cells enabled by two non-fullerene acceptors working in an?alloy-like model," Energy & Environmental Science, 13 (2), 635-645 (2020).
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
오픈액세스 학술지에 출판된 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.