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Journal Abstract Search

146 related items for PubMed ID: 37863920

  • 1. Controlling Selenization Equilibrium Enables High-Quality Kesterite Absorbers for Efficient Solar Cells.
    Xu X, Zhou J, Yin K, Wang J, Lou L, Jiao M, Zhang B, Li D, Shi J, Wu H, Luo Y, Meng Q.
    Nat Commun; 2023 Oct 20; 14(1):6650. PubMed ID: 37863920
    [Abstract] [Full Text] [Related]

  • 2. Segmented Control of Selenization Environment for High-Quality Cu2ZnSn(S,Se)4 Films Toward Efficient Kesterite Solar Cells.
    Jian Y, Han L, Kong X, Xie T, Kou D, Zhou W, Zhou Z, Yuan S, Meng Y, Qi Y, Liang G, Zhang X, Zheng Z, Wu S.
    Small Methods; 2024 Dec 20; 8(12):e2400041. PubMed ID: 38766987
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  • 3. Kesterite Cu2ZnSn(S,Se)4 Solar Cells with beyond 8% Efficiency by a Sol-Gel and Selenization Process.
    Liu F, Zeng F, Song N, Jiang L, Han Z, Su Z, Yan C, Wen X, Hao X, Liu Y.
    ACS Appl Mater Interfaces; 2015 Jul 08; 7(26):14376-83. PubMed ID: 26080031
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  • 4. Microenvironment Created by SnSe2 Vapor and Pre-Selenization to Stabilize the Surface and Back Contact in Kesterite Solar Cells.
    Guo J, Mao Y, Ao J, Han Y, Cao C, Liu F, Bi J, Wang S, Zhang Y.
    Small; 2022 Nov 08; 18(47):e2203354. PubMed ID: 36180408
    [Abstract] [Full Text] [Related]

  • 5. Single-step sulfo-selenization method to synthesize Cu2ZnSn(S(y)Se(1-y))4 absorbers from metallic stack precursors.
    Fairbrother A, Fontané X, Izquierdo-Roca V, Espindola-Rodriguez M, López-Marino S, Placidi M, López-García J, Pérez-Rodríguez A, Saucedo E.
    Chemphyschem; 2013 Jun 24; 14(9):1836-43. PubMed ID: 23576489
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  • 6. Doping of Sb into Cu2ZnSn(S,Se)4 absorber layer via Se&Sb2Se3 co-selenization strategy for enhancing open-circuit voltage of kesterite solar cells.
    Zhao B, Deng Y, Cao L, Zhu J, Zhou Z.
    Front Chem; 2022 Jun 24; 10():974761. PubMed ID: 36017168
    [Abstract] [Full Text] [Related]

  • 7. Pd(II)/Pd(IV) redox shuttle to suppress vacancy defects at grain boundaries for efficient kesterite solar cells.
    Wang J, Shi J, Yin K, Meng F, Wang S, Lou L, Zhou J, Xu X, Wu H, Luo Y, Li D, Chen S, Meng Q.
    Nat Commun; 2024 May 21; 15(1):4344. PubMed ID: 38773145
    [Abstract] [Full Text] [Related]

  • 8. Regulating Hetero-Nucleation Enabling Over 14% Efficient Kesterite Solar Cells.
    Wei H, Cui C, Li Y, Wu Z, Wei Y, Han Y, Han L, Lu B, Wang X, Pang S, Shao Z, Cui G.
    Small; 2024 May 21; 20(19):e2308266. PubMed ID: 38100155
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  • 17. Kesterite Solar Cells: Insights into Current Strategies and Challenges.
    He M, Yan C, Li J, Suryawanshi MP, Kim J, Green MA, Hao X.
    Adv Sci (Weinh); 2021 May 21; 8(9):2004313. PubMed ID: 33977066
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  • 18. Introducing Bi2S3 Interlayer to Synergistically Modify Mo Back Contact and Regulate Bulk Defects in Kesterite Solar Cells.
    Cui G, Yang Y, Bai L, Wang R, Gong Z, Cao Y, Li S, Lv X, Zhu C.
    Small; 2024 Nov 21; 20(47):e2405382. PubMed ID: 39169728
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  • 19. Classification of lattice defects in the kesterite Cu2ZnSnS4 and Cu2ZnSnSe4 earth-abundant solar cell absorbers.
    Chen S, Walsh A, Gong XG, Wei SH.
    Adv Mater; 2013 Mar 20; 25(11):1522-39. PubMed ID: 23401176
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  • 20. Prospects and performance limitations for Cu-Zn-Sn-S-Se photovoltaic technology.
    Mitzi DB, Gunawan O, Todorov TK, Barkhouse DA.
    Philos Trans A Math Phys Eng Sci; 2013 Aug 13; 371(1996):20110432. PubMed ID: 23816909
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