Surface doping effect on the optoelectronic performance of 2D organic crystals based on cyano-substituted perylene diimides

兴奋剂 光电子学 曲面(拓扑) 材料科学 化学 光化学 有机化学 分子 几何学 数学
作者
Jaeyong Ahn,Zhenping Li,Zhiwei Wang,Ke Gao,Huagui Zhuo,Wanuk Choi,Gang Chang,Xiaobo Shang,Joon Hak Oh
出处
期刊:Chinese Chemical Letters [Elsevier BV]
卷期号:35 (9): 109777-109777
标识
DOI:10.1016/j.cclet.2024.109777
摘要

Compared to organic thin films, organic single crystals offer significant potential in organic phototransistors (OPTs) due to their enhanced charge transport, large surface area, and defect-free nature. However, the development of n-type semiconductors has lagged behind p-type semiconductors. To enhance semiconductor device performance, a doping process can be employed, which typically involves the introduction of charged impurities into the crystalline semiconducting material. Its aim is to reduce the Ohmic losses, increase carrier density, improve transport capabilities, and facilitate effective carrier injection, ultimately enhancing the electrical properties of the material. Traditional doping processes, however, often pose a risk of damaging the structure of single crystals. In this study, we have synthesized novel cyano-substituted chiral perylene diimides, which self-assemble into two-dimensional single crystals that can be used for n-type semiconductor devices. We have employed a surface doping strategy using diethylamine vapor without disrupting the crystal structure. The fabricated devices exhibit significantly higher charge transport properties after doping, achieving a maximum electron mobility of 0.14 cm² V−¹ s−¹, representing an improvement of over threefold. Furthermore, the optoelectronic performance of the doped devices has significantly improved, with the external quantum efficiency increased by over 9 times and the significantly improved response time. These results suggest that our surface doping technology is a promising way for enhancing the performance of 2D organic single-crystal OPTs.
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