Title : Atomically dispersed Fe\/Bi dual active sites single-atom nanozymes for cascade catalysis and peroxymonosulfate activation to degrade dyes - Chen_2021_J.Hazard.Mater_422_126929 |
Author(s) : Chen Q , Liu Y , Lu Y , Hou Y , Zhang X , Shi W , Huang Y |
Ref : J Hazard Mater , 422 :126929 , 2021 |
Abstract :
Constructing single-atom nanozymes (SAzymes) with densely exposed and dispersed double metal-N(x) catalytic sites for pollution remediation remains rare and challenging. Herein, we report a novel Fe-Bi bimetallic MOF-derived carbon supported Fe-N(4) and Bi-N(4) dual-site FeBi-NC SAzyme for cascade catalysis and peroxymonosulfate activation to degrade dye pollutants, which is synthesized from the Fe-doped Bi-MOF as a precursor. The formation of both Fe-N(4) and Bi-N(4) sites is demonstrated by XANES and EXAFS. The FeBi-NC SAzyme has high single atoms loadings of Fe (2.61 wt%) and Bi (8.01 wt%), and displays 5.9- and 9.8-fold oxidase mimicking activity enhancement relative to the Fe-NC and Bi-NC SAzymes, respectively. When integrated acetylcholinesterase (AChE) and FeBi-NC SAzyme, a cascade enzyme-nanozyme system is developed for selective and sensitive screening of AChE activity with a low detection limit of 1 x 10(-4) mU mL(-1). Both Fe-N(4) and Bi-N(4) in FeBi-NC display a strong binding energy and electron donating capability to promote peroxymonosulfate activation to generate highly active intermediates for rhodamine B degradation. 100% rhodamine B removal occurs within 5 min via FeBi-NC mediated activation of peroxymonosulfate. The DFT calculations reveal that high activity of FeBi-NC is due to the isolated Fe-N(4) and Bi-N(4) sites and their synergy. |
PubMedSearch : Chen_2021_J.Hazard.Mater_422_126929 |
PubMedID: 34523499 |
Chen Q, Liu Y, Lu Y, Hou Y, Zhang X, Shi W, Huang Y (2021)
Atomically dispersed Fe\/Bi dual active sites single-atom nanozymes for cascade catalysis and peroxymonosulfate activation to degrade dyes
J Hazard Mater
422 :126929
Chen Q, Liu Y, Lu Y, Hou Y, Zhang X, Shi W, Huang Y (2021)
J Hazard Mater
422 :126929