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Tuning Local Coordination Environments of Manganese Single-Atom Nanozymes with Multi-Enzyme Properties for Selective Colorimetric Biosensing
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2023-02-13 , DOI: 10.1002/anie.202300119 Ying Wang 1 , Ara Cho 1 , Guangri Jia 2 , Xiaoqiang Cui 2 , Junhyeop Shin 3 , Inho Nam 3 , Kyung-Jong Noh 1 , Byoung Joon Park 1 , Rui Huang 1 , Jeong Woo Han 1
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2023-02-13 , DOI: 10.1002/anie.202300119 Ying Wang 1 , Ara Cho 1 , Guangri Jia 2 , Xiaoqiang Cui 2 , Junhyeop Shin 3 , Inho Nam 3 , Kyung-Jong Noh 1 , Byoung Joon Park 1 , Rui Huang 1 , Jeong Woo Han 1
Affiliation
A new strategy for achieving the multi-enzymatic performance of SAzymes through regulating the coordination number of heterogeneous manganese single-atom catalysts (MnSA−Nx−C) is designed and implemented. A series of colorimetric biosensing platforms based on MnSA−N3−C SAzyme is successfully built for the specific recognition of biological molecules.
中文翻译:
调整具有多酶特性的锰单原子纳米酶的局部配位环境用于选择性比色生物传感
设计并实施了一种通过调节多相锰单原子催化剂 (Mn SA -N x -C)的配位数来实现 SAzymes 多酶促性能的新策略。成功构建了一系列基于Mn SA −N 3 −C SAzyme的比色生物传感平台,用于生物分子的特异性识别。
更新日期:2023-02-13
中文翻译:
调整具有多酶特性的锰单原子纳米酶的局部配位环境用于选择性比色生物传感
设计并实施了一种通过调节多相锰单原子催化剂 (Mn SA -N x -C)的配位数来实现 SAzymes 多酶促性能的新策略。成功构建了一系列基于Mn SA −N 3 −C SAzyme的比色生物传感平台,用于生物分子的特异性识别。