质子化
亚胺
共价有机骨架
电化学发光
共价键
材料科学
抗坏血酸
联吡啶
光化学
发光
化学
密度泛函理论
组合化学
偶极子
含时密度泛函理论
电场
分子
氮气
碘化物
双模
纳米技术
对偶(语法数字)
自电离
电极
作者
Xueting Cao,Wenjie Gao,Wenqi Chu,Linlin Song,Lin Cheng,Hengchang Gao,Xiaoran Zou,Ke-Wei Ren,Huangxian Ju,Lin Cui,Xueting Cao,Wenjie Gao,Wenqi Chu,Linlin Song,Lin Cheng,Hengchang Gao,Xiaoran Zou,Ke-Wei Ren,Huangxian Ju,Lin Cui
出处
期刊:Small
[Wiley]
日期:2025-11-14
卷期号:: e10880-e10880
标识
DOI:10.1002/smll.202510880
摘要
Abstract Covalent organic frameworks (COFs) have emerged as promising electrochemiluminescence (ECL) emitters. To achieve the application, herein a dual ECL enhancement strategy is proposed for imine‐linked COF by incorporating bipyridine units and implementing a post‐modification method. After duplex protonation of bipyridine and imine nitrogen facilitated with ascorbic acid as a sacrificial agent, the HCOF Py‐Bpy exhibits a robust built‐in electric field, reduced bandgap, and improved hydrophilicity, resulting in 9.63‐ or 4.11‐fold ECL enhancement with tripropylamine as coreactant compared to COFs without protonation (COF Py‐Bpy ) or with protonated imine nitrogen (HCOF Py‐PB ). The ECL efficiency of 20.85% is 5.27‐ and 2.35‐fold higher than those of COF Py‐Bpy and HCOF Py‐PB , respectively. Density functional theory calculations confirm that the protonated nitrogen in HCOF Py‐Bpy enhances the electron‐withdrawing effect and enables a large dipole moment, which alters charge distribution to strengthen the D‐A effect and thus enhances ECL performance. Utilizing HCOF Py‐Bpy as the emitter, an efficient ECL sensing platform is developed for ultrasensitive detection of iodide (I ‒ ) and iodixanol, which demonstrates a rational post‐synthetic approach to design highly efficient ECL COF emitters, offering broad sensing applications.
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