Z
Zhiguo Su
Researcher at Chinese Academy of Sciences
Publications - 327
Citations - 12884
Zhiguo Su is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Membrane emulsification & Fermentation. The author has an hindex of 55, co-authored 320 publications receiving 11455 citations. Previous affiliations of Zhiguo Su include Garvan Institute of Medical Research & Center for Advanced Materials.
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Multi-shelled hollow micro-/nanostructures
Jian Qi,Xiaoyong Lai,Jiangyan Wang,Hongjie Tang,Hao Ren,Yu Yang,Quan Jin,Lijuan Zhang,Ranbo Yu,Guanghui Ma,Zhiguo Su,Huijun Zhao,Dan Wang,Dan Wang +13 more
TL;DR: Different synthetic methodologies for multi-shelled hollow micro-/nanostructures as well as their compositional and geometric manipulation are described and their applications in energy conversion and storage, sensors, photocatalysis, and drug delivery are reviewed.
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Surface charge affects cellular uptake and intracellular trafficking of chitosan-based nanoparticles.
TL;DR: Results show that the cellular uptake rate and amount are both positively correlated with the surface charge in all cell line, and subsequent intracellular trafficking indicates that some of positively charged NPs could escape from lysosome after being internalized and exhibit perinuclear localization.
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Vegetable-oil-based polymers as future polymeric biomaterials.
TL;DR: Recent developments in the preparation of vegetable-oil-based polyurethane, polyester, polyether and polyolefin, all of which have potential applications as biomaterials are reviewed.
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Preparation of Hierarchical Hollow CaCO3 Particles and the Application as Anticancer Drug Carrier
TL;DR: Functional study using HP-a as an anticancer drug carrier (DOX) demonstrated its advantages for localizing drug release by the pH value-sensitive structure and enhancing cytotoxicity by increasing cellular uptake, perinuclear accumulation, and nuclear entry.
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The role of the lateral dimension of graphene oxide in the regulation of cellular responses
TL;DR: Insight is provided into selective internalization, size-independent uptake, and several other biological behaviors undergone by GO, which might help build necessary knowledge for potential incorporation of the unique two-dimensional nanomaterial as a biomedical tool, and for avoiding potential hazards.