封面图片:基于 IDIC 核的新型低带隙非富勒烯受体作为潜在的光伏材料 (BKCS 9/2024) Radhiha Ravindran、Inchan Kim、Yun-Hi Kim、Soon-Ki Kwon

IF 1.7 4区 化学
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引用次数: 0

摘要

有机光伏(OPV)因其加工技术简便、重量轻、成本低、灵活性强和使用环保材料等优点而备受研究关注。一般来说,这些都是通过溶液工艺获得的体异质结(BHJ)OPV,并通过卷对卷工艺实现大面积 OPV 生产。在 OPV 中,BHJ 活性层由电子供体(D)和电子受体(A)材料通过溶解在普通有机溶剂中混合而成。基于非富勒烯的新型低带隙受体可作为潜在候选材料,与合适的供体聚合物结合用于制造 OPV。更多详情,请参阅 Radhiha Ravindran、Inchan Kim、Yun-Hi Kim 和 Soon-Ki Kwon 的文章。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cover Picture: Novel low-band gap non-fullerene acceptors based on IDIC core as potential photovoltaic materials (BKCS 9/2024) Radhiha Ravindran, Inchan Kim, Yun-Hi Kim, Soon-Ki Kwon

Cover Picture: Novel low-band gap non-fullerene acceptors based on IDIC core as potential photovoltaic materials (BKCS 9/2024) Radhiha Ravindran, Inchan Kim, Yun-Hi Kim, Soon-Ki Kwon

Organic photovoltaics (OPVs) attracted a lot of research attention owing to its advantages such as convenient processing technique, unsubstantial weight, low cost, flexibility and use of environmentally benign materials. In general, these are bulk heterojunction (BHJ) OPVs obtained through a solution process and the large-area OPV production is achieved via roll-to-roll process. In OPVs, the BHJ active layer consists of electron donor (D) and electron acceptor (A) materials blended together by dissolving them in a common organic solvent. The new low band gap non-fullerene based acceptors could be used as potential candidates for the fabrication of OPVs in combination with suitable donor polymers. More details are available in the article by Radhiha Ravindran, Inchan Kim, Yun-Hi Kim, Soon-Ki Kwon

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来源期刊
Bulletin of the Korean Chemical Society
Bulletin of the Korean Chemical Society Chemistry-General Chemistry
自引率
23.50%
发文量
182
期刊介绍: The Bulletin of the Korean Chemical Society is an official research journal of the Korean Chemical Society. It was founded in 1980 and reaches out to the chemical community worldwide. It is strictly peer-reviewed and welcomes Accounts, Communications, Articles, and Notes written in English. The scope of the journal covers all major areas of chemistry: analytical chemistry, electrochemistry, industrial chemistry, inorganic chemistry, life-science chemistry, macromolecular chemistry, organic synthesis, non-synthetic organic chemistry, physical chemistry, and materials chemistry.
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