MeO-2PACz自组装单层作为无掺杂电子选择触点的显著增强硅太阳能电池

IF 5.5 3区材料科学 Q2 CHEMISTRY, PHYSICAL

ACS Applied Energy Materials Pub Date : 2025-08-18 DOI:10.1021/acsaem.5c02076

Yueyue Wu, Yibo Xie, Jilu Zhang, Shaotao Yang, Zhangbo Lu*, Dan Chi and Shihua Huang*,

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引用次数: 0

摘要

无掺杂的载流子选择触点对于低成本、高效率的晶体硅（c-Si）光伏发电至关重要。在这里，我们通过在n-Si/Al界面上插入MeO-2PACz自组装单层（SAM）来证明有效的电子选择接触。该分子间层使线性欧姆接触具有7.79 mΩ·cm2的低接触电阻率。重要的是，MeO-2PACz将Al功函数（WF）从4.25 eV降低到3.50 eV，同时抑制费米能级钉住，降低肖特基势垒，增强电子隧穿。优化后的sam改性太阳能电池的功率转换效率为18.93%，比控制器件提高了20.81%，填充系数高达82.61%。该策略简化了器件结构，减轻了掺杂触点的固有损耗，为工业硅光伏提供了可扩展的途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

MeO-2PACz Self-Assembled Monolayer as a Dopant-Free Electron-Selective Contact for Significantly Enhanced Silicon Solar Cells

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MeO-2PACz Self-Assembled Monolayer as a Dopant-Free Electron-Selective Contact for Significantly Enhanced Silicon Solar Cells

Dopant-free carrier-selective contacts are essential for low-cost, high-efficiency crystalline silicon (c-Si) photovoltaics. Here, we demonstrate an efficient electron-selective contact by inserting a MeO-2PACz self-assembled monolayer (SAM) at the n-Si/Al interface. This molecular interlayer enables linear ohmic contact with a low contact resistivity of 7.79 mΩ·cm². Crucially, MeO-2PACz reduces the Al work function (WF) from 4.25 to 3.50 eV, simultaneously suppressing Fermi level pinning and lowering the Schottky barrier for enhanced electron tunneling. The optimized SAM-modified solar cells achieve a power conversion efficiency of 18.93%─a 20.81% enhancement over control devices─with a high fill factor of 82.61%. This strategy simplifies device architecture and mitigates intrinsic losses of doped contacts, providing a scalable pathway toward industrial silicon photovoltaics.

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来源期刊

ACS Applied Energy Materials Materials Science-Materials Chemistry

CiteScore

10.30

自引率

6.20%

发文量

1368

期刊介绍： ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.