Three dimensional multipod superstructures based on Cu(OH) 2 as a highly efficient nanozyme

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 a body size around 150 nm and branch lengths in the range of 150–250 nm. Based on the excellent catalytic properties of...

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Veröffentlicht in:	Journal of materials chemistry. B, Materials for biology and medicine Materials for biology and medicine, 2016, Vol.4 (27), p.4657-4661
Hauptverfasser:	Cai, Ren, Yang, Dan, Chen, Xigao, Huang, Yun, Lyu, Yifan, He, Jinglin, Shi, Muling, Teng, I-Ting, Wan, Shuo, Hou, Weijia, Tan, Weihong
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Sprache:	eng
Schlagworte:	body size colorimetry copper hydroxide glucose hospitals nanoparticles urine
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creator	Cai, Ren Yang, Dan Chen, Xigao Huang, Yun Lyu, Yifan He, Jinglin Shi, Muling Teng, I-Ting Wan, Shuo Hou, Weijia Tan, Weihong
description	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 a body size around 150 nm and branch lengths in the range of 150–250 nm. Based on the excellent catalytic properties 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.
doi_str_mv	10.1039/C6TB01233G
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subjects	body size colorimetry copper hydroxide glucose hospitals nanoparticles urine
title	Three dimensional multipod superstructures based on Cu(OH) 2 as a highly efficient nanozyme
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