Z
Zhongwei Niu
Researcher at Chinese Academy of Sciences
Publications - 86
Citations - 3333
Zhongwei Niu is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Tobacco mosaic virus & Nanofiber. The author has an hindex of 30, co-authored 81 publications receiving 2922 citations. Previous affiliations of Zhongwei Niu include University of South Carolina.
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Multi-enzyme co-embedded organic-inorganic hybrid nanoflowers: synthesis and application as a colorimetric sensor.
Jiayu Sun,Jiechao Ge,Weimin Liu,Minhua Lan,Hongyan Zhang,Pengfei Wang,Yanming Wang,Zhongwei Niu +7 more
TL;DR: The obtained multi-enzyme co-embedded organic-inorganic hybrid nanoflowers can be unquestionably used as highly sensitive colorimetric sensors for the detection of glucose.
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Synthesis of nano/microstructures at fluid interfaces.
TL;DR: Different assembly processes and reactions have been performed at fluid interfaces to generate hierarchical structures, including two-dimensional crystalline films, colloidosomes, raspberry-like core-shell structures, and Janus particles, which lead to broad applications in drug delivery and controlled release, nanoelectronics, sensors, food supplements, and cosmetics.
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Natural supramolecular building blocks: from virus coat proteins to viral nanoparticles.
TL;DR: This critical review highlights recent advances in the use of virus coat proteins (VCPs) and viral nanoparticles (VNPs) as building blocks in self-assembly studies and materials development.
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Chemical modification of M13 bacteriophage and its application in cancer cell imaging.
Kai Li,Yi Chen,Siqi Li,Huong Nguyen,Zhongwei Niu,Shaojin You,Charlene M. Mello,Xiaobing Lu,Qian Wang +8 more
TL;DR: Dual-modified M13 particles with folic acid and fluorescent molecules were synthesized via the selective modification of two kinds of reactive groups and showed very good binding affinity to human KB cancer cells, which demonstrated the potential applications of M13 bacteriophage in bioimaging and drug delivery.
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Biological templated synthesis of water-soluble conductive polymeric nanowires.
TL;DR: This synthesis discloses a unique way to produce composite fibrillar materials with controlled morphology and great processibility, which can promote many potential applications including electronics, optics, sensing, and biomedical engineering.