Herein, a zinc ion (Zn2+)-induced aggregation strategy is proposed for 1690-fold enhanced electrochemiluminescence (ECL) from d-penicillamine (DPA)-capped gold nanoclusters (AuNCs), and the aggregation-induced ECL (AIECL) is a multiplicative effect of… Click to show full abstract
Herein, a zinc ion (Zn2+)-induced aggregation strategy is proposed for 1690-fold enhanced electrochemiluminescence (ECL) from d-penicillamine (DPA)-capped gold nanoclusters (AuNCs), and the aggregation-induced ECL (AIECL) is a multiplicative effect of two enhancing factors. One is the improved ligand rigidification of Zn2+-induced aggregation of AuNCs, i.e. Zn2+-AuNCs. The Zn2+ of Zn2+-AuNCs can reduce the vibration and rotation of DPA, suppress non-radiative decay, and result in ∼17-fold enhanced emission with photoluminescence (PL) as control. The other is the promoted electron transfer by Zn2+–DPA bonds, which can enhance charge annihilation with the assistance of energy level alignment between AuNCs and the Zn2+–DPA bond, further amplifying ECL by another ∼100-fold. The dual-enhanced AIECL strategy can be utilized to design even brighter ECL luminophores.
Journal Title: Chemical Science
Year Published: 2025
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