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Three Dimensional Multipod Superstructure based on Cu(OH)2 as a Highly Efficient Nanozyme.


ABSTRACT: A highly efficient nanozyme system, termed hollow multipod Cu(OH)2 superstructure (HMPS), has been developed via direct conversion from irregular nanoparticles. The HMPS displayed body size around 150 nm and branch lengths in the range of 150~250 nm. Based on the excellent catalytic property of HMPS, we developed a simple and highly sensitive colorimetric assay to detect urine glucose, and the results are in good agreement with hospital examination reports.

SUBMITTER: Cai R 

PROVIDER: S-EPMC4943567 | biostudies-literature | 2016 Jul

REPOSITORIES: biostudies-literature

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Three Dimensional Multipod Superstructure based on Cu(OH)<sub>2</sub> as a Highly Efficient Nanozyme.

Cai Ren R   Yang Dan D   Chen Xigao X   Huang Yun Y   Lyv Yifan Y   He Jinglin J   Shi Muling M   Teng I-Ting IT   Wan Shuo S   Hou Weijia W   Tan Weihong W  

Journal of materials chemistry. B 20160610 27


A highly efficient nanozyme system, termed hollow multipod Cu(OH)<sub>2</sub> superstructure (HMPS), has been developed via direct conversion from irregular nanoparticles. The HMPS displayed body size around 150 nm and branch lengths in the range of 150~250 nm. Based on the excellent catalytic property of HMPS, we developed a simple and highly sensitive colorimetric assay to detect urine glucose, and the results are in good agreement with hospital examination reports. ...[more]

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