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机译:通过合理的碳掺杂策略显着提高Cu-2(Zn,Cd)Sn(SE,Se)Sn(SE,SE)(4)太阳能电池的稳定性
Jilin Univ Coll Phys State Key Lab Superhard Mat Changchun 130012 Peoples R China;
Jilin Univ Coll Phys State Key Lab Superhard Mat Changchun 130012 Peoples R China;
Jilin Univ Coll Phys State Key Lab Superhard Mat Changchun 130012 Peoples R China;
Jilin Univ Coll Phys State Key Lab Superhard Mat Changchun 130012 Peoples R China;
Jilin Univ Coll Phys State Key Lab Superhard Mat Changchun 130012 Peoples R China;
Jilin Univ Coll Phys State Key Lab Superhard Mat Changchun 130012 Peoples R China;
Chinese Acad Sci Changchun Inst Appl Chem State Key Lab Rare Earth Resource Utilizat 5625 Renmin St Changchun 130022 Peoples R China;
Kesterite; Solar cell; Back contact adhesion; Cu-2(Zn; Cd)Sn(S; Se)(4); Solution process;
机译:通过合理的碳掺杂策略显着提高Cu-2(Zn,Cd)Sn(SE,Se)Sn(SE,SE)(4)太阳能电池的稳定性
机译:通过部分电解质处理实现CDS缓冲层的锌掺杂,以提高CU2ZNSNS4太阳能电池的效率
机译:CDS(n)/(ag_xcu_(1-x))_ 2znsnse_4(p)/ cu_2znsnse_4(p +)结构的效率提高CZTSE太阳能电池
机译:通过脉冲激光沉积和薄膜太阳能电池组装沉积Cu_2ZNSS_4薄膜,具有FTO / CDS / CU_2ZNSNS_4 / MO的新颖结构
机译:Cu2ZnSnS4 纳米粒子油墨 和 Cu2ZnSn 的 光谱( S, Se)的 4个 太阳能电池
机译:退火对增强型太阳能电池Cu2ZnSnSe4 / CH3NH3PbI3 / ZnS / IZO纳米结构特性的影响
机译:效率增强胶体Mn掺杂II型核/壳ZnSE / CDSumprum点致敏混合太阳能电池