高效碳基钙钛矿太阳能电池的界面工程与缺陷钝化

IF 3.6 4区工程技术 Q3 ENERGY & FUELS

Energy technology Pub Date : 2025-03-18 DOI:10.1002/ente.202500305

Limei Wu, Mingming Zhao, Bao Zhang, Ke-jian Jiang, Wei-Min Gu, Dongzhi Liu, Xueqin Zhou

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引用次数: 0

摘要

对于高效稳定的钙钛矿太阳能电池（PSCs）来说，SnO2与钙钛矿之间的界面调节是一个关键而具有挑战性的问题。本文引入硫酸胍（GA2SO4）作为SnO2和钙钛矿的界面层，其中GA2SO4中的铵离子可以提供更多的氢键，与周围的卤化物，特别是不配位的I−进行强配位，而硫酸盐离子（SO42−）与Sn4+和不配位的Pb2+进行强配位，钝化了SnO2和钙钛矿层的缺陷。经ga2so4修饰后，制备出了具有空穴选择性的无层碳电极基PSCs (C-PSCs)，其功率转换效率高达17.91%，环境稳定性也有所提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Interfacial Engineering and Defect Passivation for Highly Efficient Carbon-Based Perovskite Solar Cells

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Interfacial Engineering and Defect Passivation for Highly Efficient Carbon-Based Perovskite Solar Cells

The interface regulation between SnO₂ and perovskite is a critical and challenging issue for highly efficient and stable perovskite solar cells (PSCs). Herein, guanidinium sulfate (GA₂SO₄) is introduced as an interface layer between SnO₂ and perovskite, where the ammonium cation in GA₂SO₄ can provide more hydrogen bonds for strong coordination with surrounding halides, especially uncoordinated I⁻, while the sulfate ions (SO₄²⁻) are strongly coordinated to Sn⁴⁺ and uncoordinated Pb²⁺, passivating the defects from both the SnO₂ and perovskite layers. With the GA₂SO₄-modification, hole-selective layer -free carbon-electrode-based PSCs (C-PSCs) are fabricated and exhibited a higher power conversion efficiency of 17.91%, followed by enhanced environmental stability.

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来源期刊

Energy technology ENERGY & FUELS-

CiteScore

7.00

自引率

5.30%

发文量

审稿时长

1.3 months

期刊介绍： Energy Technology provides a forum for researchers and engineers from all relevant disciplines concerned with the generation, conversion, storage, and distribution of energy. This new journal shall publish articles covering all technical aspects of energy process engineering from different perspectives, e.g., new concepts of energy generation and conversion; design, operation, control, and optimization of processes for energy generation (e.g., carbon capture) and conversion of energy carriers; improvement of existing processes; combination of single components to systems for energy generation; design of systems for energy storage; production processes of fuels, e.g., hydrogen, electricity, petroleum, biobased fuels; concepts and design of devices for energy distribution.