同种类的
纳米技术
化学
过氧化物酶
计算生物学
计算机科学
材料科学
酶
物理
生物化学
统计物理学
生物
作者
Yanru Chen,Lingling Zhao,Xiuming Wu,Yuming Dong,Guangli Wang
标识
DOI:10.1016/j.snb.2022.132040
摘要
This study addresses the demand for high–performance aptasensing by reporting a spontaneously formed nanozyme on the surface of CuWO 4 nanomaterials. The self–coordination of [Fe(CN) 6 ] 3- with CuWO 4 nanomaterials led to the in situ formation of CuHCF on its surface, which demonstrated efficient peroxidase–like activity for the catalytic oxidation of the chromogenic substrate of 3,3′,5,5′-tetramethylbenzidine (TMB). This spontaneously formed nanozyme enabled its coupling with the stimuli–responsive mesoporous silica nanoparticles (MSN) molecule gates and the nuclease (DNase I) cleavage reaction assisted target recycling for achieving colorimetric aptasensing in label–free, immobilization–free, and highly amplified modes. The developed approach allowed the detection of 0.1–100 nM kanamycin (KANA) with the low detection limit of 3.5 pM, which could also satisfactorily identify the content of KANA in treated milk and lake water samples. The formed nanozyme may in principle be universally applicable for the detection of a range of targets of interest. We hope this spontaneously formed nanozyme would arouse the exploration of more ingenious nanozyme with exquisite biosensing applications. • A spontaneously formed nanozyme on surface of CuWO 4 with peroxidase-like activity. • This in situ formed nanozyme provides perspective for high-performance aptasensing. • A homogenous and high-throughput aptasensor was developed for the KANA detection. • The KANA was detected with the low detection limit of 3.5 pM. • It may arouse research for more ingenious nanozyme with exquisite applications.
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