An Overview of Electron Transport Layer Materials and Structures for Efficient Organic Photovoltaic Cells

IF 3.6 4区工程技术 Q3 ENERGY & FUELS

Energy technology Pub Date : 2024-06-30 DOI:10.1002/ente.202400285

Shawbo Abdulsamad Abubaker, Mohd Zamir Pakhuruddin

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Abstract

The electron transport layer (ETL) has gained significant attention recently for its essential role in facilitating charge extraction, transportation, and reducing recombination in photovoltaic cells. Organic photovoltaics (OPVs) with ETLs have achieved remarkable efficiencies exceeding 19%, and indoor OPVs have reached a peak efficiency of 29.4% under 3000 LX illumination. Despite these accomplishments, the difficulties in choosing appropriate ETLs for contact alignment have constrained device performance. This review comprehensively overviews the latest advancements in ETL materials used in conventional and inverted OPVs. Additionally, it investigates the evolution of dopant materials, emphasizing the need for improved electron mobility, energy level alignment, and surface passivation treatment of the buffer layer and absorber layers in OPVs. Continual studies of transport materials and the potential utilization of doping or multilayer ETLs are suggested as inevitable research toward achieving higher power conversion efficiency and stability in OPV technology. Additionally, identifying optimal ETL materials capable of synergistic interactions remains crucial for sustained progress in renewable energy technology.

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高效有机光伏电池的电子传输层材料和结构概述

电子传输层（ETL）在促进电荷提取、传输和减少光伏电池中的重组方面发挥着至关重要的作用，因此近来备受关注。采用 ETL 的有机光伏电池（OPV）的效率已超过 19%，室内 OPV 在 3000 LX 照明下的峰值效率达到 29.4%。尽管取得了这些成就，但在选择合适的 ETL 进行接触对准时遇到的困难限制了器件的性能。本综述全面概述了用于传统和倒置型 OPV 的 ETL 材料的最新进展。此外，它还研究了掺杂材料的演变，强调了改善电子迁移率、能级对准以及对 OPV 中缓冲层和吸收层进行表面钝化处理的必要性。建议对传输材料和掺杂或多层 ETL 的潜在利用进行持续研究，这是实现更高功率转换效率和 OPV 技术稳定性的必然研究方向。此外，确定能够协同作用的最佳 ETL 材料对于可再生能源技术的持续进步仍然至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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.