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Photocarrier recombination dynamics in Cu2ZnSn(S,Se)4 and Cu(In,Ga)Se2 studied by temperature-dependent time resolved Photoluminescence (TR-PL)

机译：依赖于温度的时间分辨光致发光（TR-PL）研究了Cu2ZnSn（S，Se）4和Cu（In，Ga）Se2中的光子复合动力学

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Temperature dependent time resolved photoluminescence (TR-PL) measurements have been performed in similar structured kesterite Cu2ZnSn(S,Se)4 and chalcopyrite Cu(In,Ga)Se2 thin film absorbers. It is investigated that at 26 K the measured lifetime values for a set of CZTSSe samples are more than one order magnitude higher than at room temperature whereas in CIGS this difference is not significant. At room temperature the significantly lower photoluminescence emission and minority carrier lifetime for CZTSSe comparing to CIGS suggest that the dominant non-radiative recombination processes are associated with CZTSSe than CIGS and it can limit the efficiency of CZTSSe based solar cells.

机译：温度依赖性时间分辨光致发光（TR-PL）测量已在相似的结构化Kesterite Cu2ZnSn（S，Se）4和黄铜矿Cu（In，Ga）Se2薄膜吸收剂中进行。研究表明，在26 K下，一组CZTSSe样品的实测寿命值比室温下高出一个数量级，而在CIGS中，这种差异并不显着。与CIGS相比，在室温下CZTSSe的光致发光发射和少数载流子寿命明显较低，这表明CZTSSe的主要非辐射复合过程比CIGS更为重要，这可能限制了基于CZTSSe的太阳能电池的效率。

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《IEEE Photovoltaic Specialists Conference》|2015年|1-4|共4页
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Abdul Halim Mohammad; Islam Muhammad Monirul; Xianjia Luo; Sakurai Takeaki; Sakai Noriyuki; Kato Takuya; Sugimoto Hiroki; Tampo Hitoshi; Shibata Hajime; Niki Shigeru; Akimoto Katsuhiro;
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Photoluminescence; Photovoltaic cells; Temperature dependence; Temperature measurement; Yttrium; Cu2ZnSn(S,Se)4; kesterite; minority carrier lifetime; recombination center; thin film; time resolved photoluminescence;

机译：光致发光;光伏电池;温度依赖性;温度测量;钇; Cu2ZnSn（S，Se）4;钾长石少数载流子寿命;重组中心;薄膜;时间分辨光致发光;

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1. First-principles study on the alkali chalcogenide secondary compounds in Cu（In,Ga）Se2 and Cu2ZnSn（S,Se）4 thin film solar cells [J] . Xian Zhang, Dan Han, Shiyou Chen, 能源化学：英文版 . 2018,第004期
2. Deciphering the Origins of P1-Induced Power Losses in Cu(In_(x),Ga_(1–x))Se2(CIGS)Modules Through Hyperspectral Luminescence [J] . César Omar Ramírez Quiroz, Laura-Isabelle Dion-Bertrand, Christoph J.Brabec, 工程（英文） . 2020,第012期
3. Temperature-dependent carrier recombination processes in nanocrystalline Si/SiO2 multilayers studied by continuous-wave and time-resolved photoluminescence [J] . Kim S, Park YM, Choi SH, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2007,第5期

机译：连续波和时间分辨光致发光研究纳米Si / SiO2多层膜中与温度有关的载流子复合过程
4. Time-resolved photoluminescence on double graded Cu(In,Ga)Sesub2/sub – Impact of front surface recombination and its temperature dependence [J] . Thomas Paul Weiss, Romain Carron, Max H. Wolter, Science and technology of advanced materials . 2019,第1期

机译：在双层Cu（In，Ga）Se 2 - 前表面重组的影响及其温度依赖性的时分 - 分离的光致发光及其温度
5. The influence of sodium on the molybdenum/Cu(In,Ga)Se_2 interface recombination velocity, determined by time resolved photoluminescence [J] . Enrico Jarzembowski, Frank Syrowatka, Kai Kaufmann, Applied Physics Letters . 2015,第5期

机译：钠对时间分辨光致发光测定的钼/ Cu（In，Ga）Se_2界面复合速度的影响
6. Photocarrier recombination dynamics in Cu2ZnSn(S,Se)4 and Cu(In,Ga)Se2 studied by temperature-dependent time resolved Photoluminescence (TR-PL) [C] . Abdul Halim Mohammad, Islam Muhammad Monirul, Xianjia Luo, IEEE Photovoltaic Specialists Conference . 2015

机译：通过温度依赖于温度依赖的时间分辨的光致发光（TR-PL）研究了Cu2ZNSN（SE，SE）4和Cu（In，Ga）Se2的光载波重组动力学（TR-P1）
7. RECOMBINATION DYNAMICS IN QUANTUM WELL SEMICONDUCTOR STRUCTURES (GALLIUM-ARSENIDE, PHOTOLUMINESCENCE, RADIATIVE, TIME-RESOLVED ALUMINUM). [D] . FOUQUET, JULIE ELIZABETH. 1986

机译：量子阱半导体结构中的重组动力学（砷化镓，光致发光，辐射，时间分辨的铝）。
8. Time-resolved photoluminescence on double graded Cu(InGa)Se2 – Impact of front surface recombination and its temperature dependence [O] . Thomas Paul Weiss, Romain Carron, Max H. Wolter, 2019

机译：双梯度Cu（InGa）Se2上的时间分辨光致发光–前表面复合的影响及其温度依赖性
9. A comparative study on charge carrier recombination across the junction region of Cu2ZnSn(S,Se)4 and Cu(In,Ga)Se2 thin film solar cells [O] . Halim Mohammad Abdul, Islam Muhammad Monirul, Luo Xianjia, 2016

机译：Cu2ZnSn（S，Se）4与Cu（In，Ga）Se2薄膜太阳能电池交界处电荷载流子复合的比较研究

Photocarrier recombination dynamics in Cu2ZnSn(S,Se)4 and Cu(In,Ga)Se2 studied by temperature-dependent time resolved Photoluminescence (TR-PL)

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