Title: Selective Gold Recycling from Electronic Waste Using a Highly Stable Porous Aromatic Framework/Polymer and Its Application for CO2 Electroreduction

Authors: Tianwei Xue+, Guangkuo Xu+, Chengbin Liu+, Ruiqing Li, Yanyin Wu, Yuyu Guo, Shan Gong, Zeyu Shao, Xiangcheng Cai, Haoyu Zou, Linxiao Cui, Jia Zhao, Zhihong Gao, Shuliang Yang, Jun Li, Buxing Han*, Li Peng*

Abstract: Recycling gold from electronic waste represents a sustainable and environmentally friendly strategy for both resource recovery and waste reduction. In this study, we designed an innovative and highly stable porous aromatic framework (PAF)/polymer composite, PAF-147/polydopamine (PDA), as an efficient adsorbent for selective gold recovery for the first time. The maximum gold adsorption capacity of PAF-147/PDA reached 1700 mg g−1. Furthermore, it could rapidly extract over 95 % of gold from solutions in a pH range of 0–10 within just 2 minutes. Importantly, as a real application demonstration, the PAF-147/PDA composite selectively recovered 99 % of gold from the leachate of discarded central processing units. When the recovered Au-containing composite was applied to electrocatalytic CO2 reduction, the Faradaic efficiency for CO production exceeded 95 % across acidic, neutral, and alkaline electrolytes, outperforming most reported gold-based catalysts due to the cooperation effect of the composite and Au. This work opens a new way for the combination of selective gold recovery from electronic waste with highly efficient CO2 conversion.

Full-Link: https://doi.org/10.1002/anie.202500092