AlGaAs/Si dual‐junction tandem solar cells by epitaxial lift‐off and print‐transfer‐assisted direct bonding

Kanglin Xiong; Hongyi Mi; Tzu‐Hsuan Chang; Dong Liu; Zhenyang Xia; Meng‐Yin Wu; Xin Yin; Shaoqin Gong; Weidong Zhou; Jae Cheol Shin; Xiuling Li; Michael Arnold; Xudong Wang; Hao‐Chih Yuan; Zhenqiang Ma

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AlGaAs/Si dual‐junction tandem solar cells by epitaxial lift‐off and print‐transfer‐assisted direct bonding

机译：通过外延剥离和印刷转移辅助直接键合的AlGaAs / Si双结串联太阳能电池

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A novel method is developed to realize a III‐V/Si dual‐junction photovoltaic cell by combining epitaxial lift‐off (ELO) and print‐transfer‐assisted bonding methods. The adoption of ELO enables III‐V wafers to be recycled and reused, which can further lower the cost of III‐V/Si photovoltaic panels. For demonstration, high crystal quality, micrometer‐thick, GaAs/AlGaAs/GaAs films are lifted off, transferred, and directly bonded onto Si wafer without the use of any adhesive or bonding agents. The bonding interface is optically transparent and conductive both thermally and electrically. Prototype AlGaAs/Si dual‐junction tandem solar cells have been fabricated and exhibit decent performance.

机译：通过结合外延剥离（ELO）和印刷转移辅助键合方法，开发了一种新的方法来实现III-V / Si双结光伏电池。 ELO的采用使III-V晶片得以回收和再利用，从而可以进一步降低III-V / Si光伏面板的成本。为了演示，将高品质，微米级厚度的高品质GaAs / AlGaAs / GaAs薄膜提起，转移并直接粘合到Si晶片上，而无需使用任何粘合剂或粘合剂。粘合界面是光学透明的，并且既导热又导电。已制造出原型AlGaAs / Si双结串联太阳能电池，并表现出不错的性能。

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《Energy Science & Engineering》 |2018年第1期|共9页
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Kanglin Xiong; Hongyi Mi; Tzu‐Hsuan Chang; Dong Liu; Zhenyang Xia; Meng‐Yin Wu; Xin Yin; Shaoqin Gong; Weidong Zhou; Jae Cheol Shin; Xiuling Li; Michael Arnold; Xudong Wang; Hao‐Chih Yuan; Zhenqiang Ma;
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机译：外延剥离的GaInP单结和GaInP / GaAs两结薄膜太阳能电池结构
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机译：在硅上制备GaInP / GaAs双结太阳能电池的直接生长和晶圆键合的比较
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机译：用于太空应用的轻质（AlGaAs）GaAs / CuInSe / sub 2 /串联结太阳能电池
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机译：外延剥离和印刷转移辅助键合制备的AlGaAs / Si双结串联太阳能电池
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机译：最小化Perovskite太阳能电池中的光学和电力损失：从单结到先进的串联设计=涉及太阳能电池的光学和电气损失最小化
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机译：AlGaAs / GaAs异质结优化GaAs纳米线pin结阵列太阳能电池
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机译：InGaP / GaAs反向双结太阳能电池，用于使用金属支持的外延剥离的CPV应用
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机译：alGaas顶部太阳能电池，用于多结串联集中器太阳能电池堆中的机械连接

AlGaAs/Si dual‐junction tandem solar cells by epitaxial lift‐off and print‐transfer‐assisted direct bonding

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