使用透明导电氧化物和无掺杂电子选择性接触的双面硅异质结太阳能电池

IF 8 2区材料科学 Q1 ENERGY & FUELS Progress in Photovoltaics Pub Date : 2024-05-01 DOI:10.1002/pip.3810

Anzhi Xie, Genshun Wang, Yiwei Sun, Haihuai Cai, Xiaoyun Su, Peibang Cao, Zheng Li, Zhexi Chen, Jian He, Pingqi Gao

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引用次数: 0

摘要

为无掺杂载流子选择性晶体硅（c-Si）异质结（SHJ）太阳能电池开发透明电子选择性触点，对于实现高短路电流密度（JSC）以及由此产生的高光电转换效率（PCE）具有重要作用。在重点开发双面太阳能电池时，这一点变得更加重要。本研究开发了双面 SHJ 太阳能电池，采用了透明导电氧化物无掺杂电子选择性钝化触点，显示出高达 97% 的 JSC 双面性。在这种结构中使用了通过原子层沉积沉积的本征氧化锌层，退火后的钝化损失可以忽略不计，同时使电子选择性触点的接触电阻率很低。在两侧指状金属电极接触的情况下，这种双面太阳能电池在正面辐照下的效率为 21.2%，在背面辐照下的效率为 20.4%，当考虑到背面辐照度为 0.15 太阳时，估计输出功率密度为 24.1 mW/cm2。

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Bifacial silicon heterojunction solar cells using transparent-conductive-oxide- and dopant-free electron-selective contacts

The development of transparent electron-selective contacts for dopant-free carrier-selective crystalline silicon (c-Si) heterojunction (SHJ) solar cells plays an important role in achieving high short-circuit current density (J_SC) and consequently high photoelectric conversion efficiencies (PCEs). This becomes even more important when focusing on the development of bifacial solar cells. In this study, bifacial SHJ solar cells using a transparent-conductive-oxide-free and dopant-free electron-selective passivating contacts are developed, showing a J_SC bifaciality of up to 97%. Intrinsic ZnO_X layer deposited by atomic layer deposition was used in this structure, which simultaneously provides negligible passivation loss after annealing and enables a low contact resistivity on the electron-selective contact. With both side finger metal electrodes contact, this bifacial solar cell shows an efficiency of 21.2% under front-side irradiation and 20.4% under rear-side irradiation, resulting in an estimated output power density of 24.1 mW/cm² when considering rear-side irradiance of 0.15 sun.

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来源期刊

Progress in Photovoltaics 工程技术-能源与燃料

CiteScore

18.10

自引率

7.50%

发文量

130

审稿时长

5.4 months

期刊介绍： Progress in Photovoltaics offers a prestigious forum for reporting advances in this rapidly developing technology, aiming to reach all interested professionals, researchers and energy policy-makers. The key criterion is that all papers submitted should report substantial “progress” in photovoltaics. Papers are encouraged that report substantial “progress” such as gains in independently certified solar cell efficiency, eligible for a new entry in the journal''s widely referenced Solar Cell Efficiency Tables. Examples of papers that will not be considered for publication are those that report development in materials without relation to data on cell performance, routine analysis, characterisation or modelling of cells or processing sequences, routine reports of system performance, improvements in electronic hardware design, or country programs, although invited papers may occasionally be solicited in these areas to capture accumulated “progress”.

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