Copper (I) Oxide (Cu2O) based back contact for p-i-n CdTe solar cells

Tuerck Johannes; Nonnenmacher Hermann-Josef; Connor Paula M. L.; Siol Sebastian; Siepchen Bastian; Heimfarth Jan Peter; Klein Andreas; Jaegermann Wolfram

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Copper (I) Oxide (Cu2O) based back contact for p-i-n CdTe solar cells

机译：用于p-i-n CdTe太阳能电池的基于氧化铜（I）的背面接触

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In this paper a promising solution for the notorious problem of manufacturing a stable low ohmic back contact of a CdTe thin film superstrate solar cell is presented without using elemental copper. Instead we have used a Cu2O layer inserted between the CdTe absorber and metal contact (Au). In contrast to the barrier free band alignment gained by using the transitivity rules, XPS measurements show a barrier in the valence band of the Cu2O layers directly after deposition, which results in a low performing JV curve. The contact can be improved by a short thermal treatment resulting in efficiencies superior to copper based contacts for standard CdS/CdTe hetero junction solar cells prepared on commercial glass/FTO substrates. By replacing the CdS window layer with a CdS:O buffer layer efficiencies of >15% could be achieved. Copyright (c) 2016 John Wiley & Sons, Ltd.

机译：在本文中，提出了一种解决臭名昭著的问题的解决方案，该臭名昭著的问题是制造不使用元素铜的CdTe薄膜超薄太阳能电池的稳定的低欧姆背接触。相反，我们在CdTe吸收剂和金属触点（Au）之间插入了Cu2O层。与使用传递性规则获得的无障碍能带对准相反，XPS测量显示在沉积后直接在Cu2O层的价带中有障碍，这会导致低性能的JV曲线。可以通过短时热处理来改善接触，从而获得比在商用玻璃/ FTO基板上制备的标准CdS / CdTe异质结太阳能电池的铜基接触更高的效率。通过用CdS：O缓冲层替换CdS窗口层，可以实现> 15％的效率。版权所有（c）2016 John Wiley＆Sons，Ltd.

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《Progress in photovoltaics》 |2016年第9期|共8页
作者
Tuerck Johannes; Nonnenmacher Hermann-Josef; Connor Paula M. L.; Siol Sebastian; Siepchen Bastian; Heimfarth Jan Peter; Klein Andreas; Jaegermann Wolfram;
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正文语种 eng
中图分类通信系统（传输系统）;光电子技术、激光技术;
关键词
X-ray photoelectron spectroscopy (XPS); interface; Cu2O; back contact; CdTe solar cell;

机译：X射线光电子能谱（XPS）;界面;Cu2O;背面接触;CdTe太阳能电池;

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1. Copper (I) Oxide (Cu2O) based back contact for p-i-n CdTe solar cells [J] . Tuerck Johannes, Nonnenmacher Hermann-Josef, Connor Paula M. L., Progress in photovoltaics . 2016,第9期

机译：用于p-i-n CdTe太阳能电池的基于氧化铜（I）的背面接触
2. Ohmic contact formation and activation for reduced graphene oxide and Sb bilayers contacted CdTe solar cells [J] . Zhu Linyu, Luo Guangcan, Yin Xiaohan, Materials science in semiconductor processing . 2020,第1期

机译：欧姆接触形成和氧化石墨烯和Sb双层接触CdTe太阳能电池的活化
3. Alternative back contacts for CdTe solar cells: a photoemission study of the VSe_2/CdTe and TiSe_2/CdTe interface formation [J] . D. Kraft, U. Weiler, Y. Tomm, Thin Solid Films . 2003,第May期

机译：CdTe太阳能电池的备用背面触点：对VSe_2 / CdTe和TiSe_2 / CdTe界面形成的光发射研究
4. Molybdenum Oxide and Molybdenum Nitride Back Contacts for Thin-Film CdTe Solar Cells [C] . Anna Kindvall, Jason Kephart, Walajabad Sampath IEEE Photovoltaic Specialist Conference . 2017

机译：薄膜CdTe太阳能电池的氧化钼和氮化钼背触点
5. Development of ZnTe:Cu contacted CdTe solar cells [D] . Li, Jiaojiao. 2016

机译：ZnTe：Cu接触CdTe太阳能电池的开发
6. Nanowire CdS-CdTe Solar Cells with Molybdenum Oxide as Contact [O] . Hongmei Dang, Vijay P. Singh -1

机译：以氧化钼为触点的纳米线CdS-CdTe太阳能电池
7. An investigation of the influence of different transparent conducting oxide substrates/front contacts on the performance of CdS/CdTe thin-film solar cells [O] . Echendu, O.K., Dejene, F.B., Dharmadasa, I 2017

机译：研究不同的透明导电氧化物衬底/正面接触对CdS / CdTe薄膜太阳能电池性能的影响
8. Analysis of Cu Diffusion in ZnTe-Based Contacts for Thin-Film CdS/CdTe Solar Cells [R] . C. Narayanswamy 1998

机译：薄膜Cds / CdTe太阳电池ZnTe基触头中Cu扩散的分析

Copper (I) Oxide (Cu2O) based back contact for p-i-n CdTe solar cells

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