Intrareticular charge transfer regulated electrochemiluminescence of donor–acceptor covalent organic frameworks

Rengan Luo; Haifeng Lv; Qiaobo Liao; Ningning Wang; Jiarui Yang; Yang Li; Kai Xi; Xiaojun Wu; Huangxian Ju; Jianping Lei

doi:10.1038/s41467-021-27127-5

Intrareticular charge transfer regulated electrochemiluminescence of donor–acceptor covalent organic frameworks

Rengan Luo(Nanjing University), Haifeng Lv(University of Science and Technology of China), Qiaobo Liao(Nanjing University), Ningning Wang(Nanjing University), Jiarui Yang(Nanjing University), Yang Li(Nanjing University), Kai Xi(Nanjing University), Xiaojun Wu(University of Science and Technology of China), Huangxian Ju(Nanjing University), Jianping Lei(Nanjing University)

Nature Communications

November 23, 2021

10.1038/s41467-021-27127-5

Cited by 190Open Access

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Abstract

The control of charge transfer between radical anions and cations is a promising way for decoding the emission mechanism in electrochemiluminescence (ECL) systems. Herein, a type of donor-acceptor (D-A) covalent organic framework (COF) with triphenylamine and triazine units is designed as a highly efficient ECL emitter with tunable intrareticular charge transfer (IRCT). The D-A COF demonstrates 123 folds enhancement in ECL intensity compared with its benzene-based COF with small D-A contrast. Further, the COF's crystallinity- and protonation-modulated ECL behaviors confirm ECL dependence on intrareticular charge transfer between donor and acceptor units, which is rationalized by density functional theory. Significantly, dual-peaked ECL patterns of COFs are achieved through an IRCT mediated competitive oxidation mechanism: the coreactant-mediated oxidation at lower potential and the direct oxidation at higher potential. This work provides a new fundamental and approach to improve the ECL efficiency for designing next-generation ECL devices.

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