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CZTS 박막 태양전지 최신 연구 동향  

Jo, Eun-Ae (신소재공학부 전남대학교)
Gang, Myeong-Gil (신소재공학부 전남대학교)
Hong, Chang-U (신소재공학부 전남대학교)
Jang, Jun-Seong (신소재공학부 전남대학교)
Kim, In-Yeong (전기전자컴퓨터공학부 광주과학기술원)
Kim, Jin-Hyeok (신소재공학부 전남대학교)
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Bulletin of the Korea Photovoltaic Society / v.2, no.2, 2016 , pp. 8-20 More about this Journal
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11 S. Giraldo, T. Thersleff, G. Larramona, M. Neuschitzer, P. Pistor, K. Leifer, A. P rez-Rodr guez, C. Moisan, G. Dennler and E. Saucedo, "$Cu_2ZnSnSe_4$ solar cells with 10.6% efficiency through innovative absorber engineering with Ge superficial nanolayer," Progress in Photovoltaics: Research and Applications, vol. 24, no. 10, pp. 1359-1367, 2016.   DOI
12 J. Li, H. Wang, L. Wu, C. Chen, Z. Zhou, F. Liu, Y. Sun, J. Han and Y. Zhang, "Growth of $Cu_2ZnSnSe_4$ Film under Controllable Se Vapor Composition and Impact of Low Cu Content on Solar Cell Efficiency," ACS Applied Materials & Interfaces, vol. 8, no. 16, pp. 10283-10292, 2016.   DOI
13 K. Sun, C. Yan, F. Liu, J. Huang, F. Zhou, J. A. Stride, M. Green and X. Hao, "Over 9% Efficient Kesterite $Cu_2ZnSnS_4$ Solar Cell Fabricated by Using $Zn_{1-x}Cd_xS$ Buffer Layer," Advanced Energy Materials, vol. 6, no. 12, pp.1600046, 2016.   DOI
14 A. Redinger, J. Sendler, R. Djemour, T. P. Weiss, G. Rey, P. J. Dale and S. Siebentritt, "Different Bandgaps in $Cu_2ZnSnSe_4$: A High Temperature Co evaporation Study," IEEE Journal of Photovoltaics, vol. 5, no. 2, pp. 641-648, 2015.   DOI
15 S. A. Vanalakar, S. W. Shin, G. L. Agawane, M. P. Suryawanshi, K. V. Gurav, P. S. Patil and J. H. Kim, "Effect of post-annealing atmosphere on the grain-size and surface morphological properties of pulsed laser deposited CZTS thin films," Ceramics International, vol. 40, no. 9, Part B, pp. 15097-15103, 2014.   DOI
16 X. Jin, C. Yuan, L. Zhang, G. Jiang, W. Liu and C. Zhu, "Pulsed laser deposition of $Cu_2ZnSn(S_xSe_{1−x})_4$ thin film solar cells using quaternary oxide target prepared by combustion method," Solar Energy Materials and Solar Cells, vol. 155, pp. 216-225, 2016.   DOI
17 W.-C. Hsu, I. Repins, C. Beall, C. DeHart, G. Teeter, B. To, Y. Yang and R. Noufi, "The effect of Zn excess on kesterite solar cells," Solar Energy Materials and Solar Cells, vol. 113, pp. 160-164, 2013.   DOI
18 S. Kim, K. M. Kim, H. Tampo, H. Shibata, K. Matsubara and S. Niki, "Ge-incorporated $Cu_2ZnSnSe_4$ thin-film solar cells with efficiency greater than 10%," Solar Energy Materials and Solar Cells, vol. 144, pp. 488-492, 2016.   DOI
19 T. Aizawa, K. Tanaka, K. Tagami and H. Uchiki, "Investigation of ZnO:Al window layer of $Cu_2ZnSnS_4$ thin film solar cells prepared by non-vacuum processing,"physica status solidi (c), vol. 10, no. 7-8, pp. 1050-1054, 2013.   DOI
20 J. W. Cho, A. Ismail, S. J. Park, W. Kim, S. Yoon and B. K. Min, "Synthesis of $Cu_2ZnSnS_4$ Thin Films by a Precursor Solution Pastefor Thin Film Solar Cell Applications," ACS Applied Materials & Interfaces, vol. 5, no. 10, pp. 4162-4165, 2013.   DOI
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22 W. Zhao, G. Wang, Q. Tian, Y. Yang, L. Huang and D. Pan, "Fabrication of $Cu_2ZnSn(S,Se)_4$ Solar Cells via an Ethanol-Based Sol-Gel Route Using $SnS_2$ as Sn Source," ACS Applied Materials & Interfaces, vol. 6, no. 15, pp. 12650-12655, 2014.   DOI
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24 Y. Zhang, C. Liao, K. Zong, H. Wang, J. Liu, T. Jiang, J. Han, G. Liu, L. Cui, Q. Ye, H. Yan and W. Lau, "$Cu_2ZnSnSe_4$ thin film solar cells prepared by rapid thermal annealing of co-electroplated Cu-Zn-Snprecursors," Solar Energy, vol. 94, pp. 1-7, 2013.   DOI
25 F. Jiang, S. Ikeda, Z. Tang, T. Minemoto, W. Septina, T. Harada and M. Matsumura, "Impact of alloying duration of an electrodeposited Cu/Sn/Zn metallic stack on properties of $Cu_2ZnSnS_4$ absorbers for thin-film solar cells," Progress in Photovoltaics: Research and Applications, vol. 23, no. 12, pp. 1884-1895, 2015.   DOI
26 W.-C. Hsu, H. Zhou, S. Luo, T.-B. Song, Y.-T. Hsieh, H.-S. Duan, S. Ye, W. Yang, C.-J. Hsu, C. Jiang, B. Bob and Y. Yang, "Spatial Element Distribution Control in a Fully Solution-Processed Nanocrystals-Based 8.6 % $Cu_2ZnSn(S,Se)_4$ Device," ACS Nano, vol. 8, no. 9, pp. 9164-9172, 2014.   DOI
27 C. K. Miskin, W.-C. Yang, C. J. Hages, N. J. Carter, C. S. Joglekar, E. A. Stach and R. Agrawal, "9.0% efficient $Cu_2ZnSn(S,Se)_4$ solar cells from selenized nanoparticle inks," Progress in Photovoltaics: Research and Applications, vol. 23, no. 5, pp. 654-659, 2015.   DOI
28 M. G. Gang, S. W. Shin, C. W. Hong, K. V. Gurav, J. Gwak, J. H. Yun, J. Y. Lee and J. H. Kim, "Sputtering processed highly efficient $Cu_2ZnSn(S,Se)_4$ solar cells by a low-cost, simple, environmentally friendly, and up-scalable strategy," Green Chemistry, vol. 18, no. 3, pp. 700-711, 2016.   DOI
29 X. Jin, J. Li, G. Chen, C. Xue, W. Liu and C. Zhu, "Preparation of $Cu_2ZnSnS_4$-based thin film solar cells by a combustion method," Solar Energy Materials and Solar Cells, vol. 146, pp. 16-24, 2016.   DOI
30 S.-Y. Wei, Y.-C. Liao, C.-H. Hsu, C.-H. Cai, W.-C. Huang, M.-C. Huang and C.-H. Lai, "Achieving high efficiency $Cu_2ZnSn(S,Se)_4$ solar cells by non-toxic aqueous ink: Defect analysis and electrical modeling," Nano Energy, vol. 26, pp. 74-82, 2016.   DOI
31 A. V. Moholkar, S. S. Shinde, G. L. Agawane, S.H. Jo, K. Y. Rajpure, P. S. Patil, C. H. Bhosaleand J. H. Kim, "Studies of compositionaldependent CZTS thin film solar cells by pulsedlaser deposition technique: An attempt toimprove the efficiency," Journal of Alloys andCompounds, vol. 544, pp. 145-151, 2012.   DOI
32 G. Y. Kim, D.-H. Son, T. Thi Thu Nguyen, S.Yoon, M. Kwon, C.-W. Jeon, D.-H. Kim, J.-K.Kang and W. Jo, "Enhancement of photoconversionefficiency in $Cu_2ZnSn(S,Se)_4$ thin-filmsolar cells by control of ZnS precursor-layerthickness," Progress in Photovoltaics: Researchand Applications, vol. 24, no. 3, pp. 292-306,2016.   DOI
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