Pei-Zhou Li focuses on Catalysis, Inorganic chemistry, Metal-organic framework, Nickel and Nanotechnology. Pei-Zhou Li combines subjects such as Combinatorial chemistry and Molecule with his study of Catalysis. His Inorganic chemistry research is multidisciplinary, incorporating perspectives in Mercury, Steric effects and Pulmonary surfactant.
His Metal-organic framework research integrates issues from Ligand, Cycloaddition and Amine gas treating. His Nickel research is multidisciplinary, incorporating elements of Hydrogen production, Ammonia borane, Nanoparticle, Polymer chemistry and Hydrolysis. His Intercalation research extends to Nanotechnology, which is thematically connected.
His main research concerns Metal-organic framework, Nanotechnology, Inorganic chemistry, Catalysis and Adsorption. His Metal-organic framework research is multidisciplinary, relying on both Ligand, Lewis acids and bases, Molecule, Tricarboxylate and Selectivity. The concepts of his Nanotechnology study are interwoven with issues in Cycloaddition, Click chemistry and Amine gas treating.
His Inorganic chemistry study combines topics in areas such as Hydrogen production, Ammonia borane, Hydrogen, Hydrogen fuel and Nickel. His study in Catalysis is interdisciplinary in nature, drawing from both Nanoparticle and Aqueous solution. His Adsorption research includes elements of Porosity and Porous medium.
Pei-Zhou Li mainly focuses on Metal-organic framework, Nanotechnology, Photocatalysis, Click chemistry and Organic component. His Metal-organic framework study frequently links to other fields, such as Zirconium. His Nanotechnology study integrates concerns from other disciplines, such as Titanium and Water splitting.
The study incorporates disciplines such as Triphenylamine, Sulfide, Thioanisole, Tricarboxylate and Selectivity in addition to Photocatalysis. His Click chemistry study frequently links to related topics such as Cycloaddition.
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A Triazole-Containing Metal-Organic Framework as a Highly Effective and Substrate Size-Dependent Catalyst for CO2 Conversion.
Pei-Zhou Li;Pei-Zhou Li;Xiao-Jun Wang;Xiao-Jun Wang;Jia Liu;Jie Sheng Lim.
Journal of the American Chemical Society (2016)
A p-type Ti(IV)-based metal–organic framework with visible-light photo-response
Junkuo Gao;Jianwei Miao;Pei-Zhou Li;Wen Yuan Teng.
Chemical Communications (2014)
Biocompatible, Uniform, and Redispersible Mesoporous Silica Nanoparticles for Cancer‐Targeted Drug Delivery In Vivo
Quan Zhang;Quan Zhang;Xiaoling Wang;Pei-Zhou Li;Kim Truc Nguyen.
Advanced Functional Materials (2014)
Top-down fabrication of crystalline metal–organic framework nanosheets
Pei-Zhou Li;Pei-Zhou Li;Yasushi Maeda;Qiang Xu;Qiang Xu.
Chemical Communications (2011)
ZIF-8 immobilized nickel nanoparticles: highly effective catalysts for hydrogen generation from hydrolysis of ammonia borane
Pei-Zhou Li;Pei-Zhou Li;Kengo Aranishi;Kengo Aranishi;Qiang Xu;Qiang Xu.
Chemical Communications (2012)
Highly dispersed surfactant-free nickel nanoparticles and their remarkable catalytic activity in the hydrolysis of ammonia borane for hydrogen generation.
Pei-Zhou Li;Pei-Zhou Li;Arshad Aijaz;Qiang Xu;Qiang Xu.
Angewandte Chemie (2012)
A Rationally Designed Nitrogen-Rich Metal-Organic Framework and Its Exceptionally High CO 2 and H 2 Uptake Capability
Xiao-Jun Wang;Pei-Zhou Li;Yifei Chen;Quan Zhang.
Scientific Reports (2013)
Intracellular redox-activated anticancer drug delivery by functionalized hollow mesoporous silica nanoreservoirs with tumor specificity.
Zhong Luo;Yan Hu;Kaiyong Cai;Xingwei Ding.
Synthesis, Characterization and Ethylene Oligomerization Studies of Nickel Complexes Bearing 2-Benzimidazolylpyridine Derivatives
Peng Hao;Shu Zhang;Wen-Hua Sun;Qisong Shi.
Titanium-based metal–organic frameworks for photocatalytic applications
Jianjun Zhu;Jianjun Zhu;Pei-Zhou Li;Wenhan Guo;Yanli Zhao.
Coordination Chemistry Reviews (2018)
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