Lithography-free fabrication of a local contact interlayer for Si-based tandem solar cells

IF 8 2区 材料科学 Q1 ENERGY & FUELS Progress in Photovoltaics Pub Date : 2024-02-04 DOI:10.1002/pip.3784
Youngseok Lee, Chan Ul Kim, Yeeun Woo, Won-Mok Kim, Jeung-hyun Jeong, Dong-hwan Kim, Doh-Kwon Lee, Kyoung Jin Choi, Inho Kim
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Abstract

Currently, the Si solar cell market share is dominated by PERC solar cells. Although the efficiency of PERC solar cells has been steadily increasing, it is expected to reach the practical efficiency limit in the near future. The thin film/PERC Si tandem cell technique can be one of the solutions to overcome the single-cell efficiency limit. In this study, we developed a novel interlayer fabrication technology for the diffused junction Si solar cells of the PERC and Al BSF cell architectures. We combined laser contact opening (LCO) and laser-induced forward transfer (LIFT) processes to fabricate local contact opening with low contact resistance while maintaining the high passivation performance of the Si bottom cell. The dielectric-passivated emitter of the Si solar cell was ablated locally by the LCO process, and subsequently, the Ti nanoparticles were transferred selectively by the LIFT process to the opened emitter region followed by transparent conducting oxide deposition. Laser process parameters were carefully optimized to fabricate low-loss interlayers. We applied the developed interlayer fabrication technology to the Si bottom cells of Al BSF and PERC cells. Finally, we demonstrated successfully the perovskite/PERC Si tandem cell with an interlayer developed in this study. The developed interlayer fabrication technology does not include a photolithography step and vacuum deposition processes for buffer metals; thus, we expect it may be more compatible with the mass production of thin film/diffused junction Si tandem solar cells.

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为硅基串联太阳能电池免光刻制造局部接触中间膜
目前,硅太阳能电池的市场份额主要由 PERC 太阳能电池占据。虽然 PERC 太阳能电池的效率一直在稳步提高,但预计在不久的将来就会达到实用效率极限。薄膜/PERC 硅串联电池技术是克服单电池效率限制的解决方案之一。在本研究中,我们为 PERC 和 Al BSF 电池结构的扩散结硅太阳能电池开发了一种新型层间制造技术。我们结合了激光接触开口(LCO)和激光诱导正向转移(LIFT)工艺,在保持硅底电池高钝化性能的同时,制造出具有低接触电阻的局部接触开口。通过 LCO 工艺对硅太阳能电池的介质钝化发射极进行局部烧蚀,然后通过 LIFT 工艺将钛纳米粒子选择性地转移到打开的发射极区域,接着进行透明导电氧化物沉积。我们仔细优化了激光工艺参数,以制造低损耗夹层。我们将所开发的夹层制造技术应用于 Al BSF 和 PERC 电池的硅底电池。最后,我们成功演示了使用本研究中开发的中间膜的过氧化物/PERC Si 串联电池。所开发的中间膜制造技术不包括光刻步骤和缓冲金属的真空沉积过程;因此,我们预计该技术更适合薄膜/扩散结 Si 串联太阳能电池的大规模生产。
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来源期刊
Progress in Photovoltaics
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”.
期刊最新文献
Issue Information Photovoltaics Literature Survey (No. 194) Issue Information Investigation of Potential-Induced Degradation and Recovery in Perovskite Minimodules Role of Ag Addition on the Microscopic Material Properties of (Ag,Cu)(In,Ga)Se2 Absorbers and Their Effects on Losses in the Open-Circuit Voltage of Corresponding Devices
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