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Yao-Yu Wang
Researcher at Chinese Ministry of Education
Publications - 424
Citations - 14602
Yao-Yu Wang is an academic researcher from Chinese Ministry of Education. The author has contributed to research in topics: Ligand & Metal-organic framework. The author has an hindex of 58, co-authored 420 publications receiving 11900 citations. Previous affiliations of Yao-Yu Wang include Zhengzhou University & Northwest University (China).
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Uncommon pyrazoyl-carboxyl bifunctional ligand-based microporous lanthanide systems: sorption and luminescent sensing properties
TL;DR: The luminescent investigations show that 1-Eu is an excellent MOF-based fluorescent probe, with high sensitivity, selectivity, and simple regeneration, for environmentally relevant Fe(3+) and Cr2O7(2-) ions.
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Four uncommon nanocage-based Ln-MOFs: highly selective luminescent sensing for Cu2+ ions and selective CO2 capture
TL;DR: Four uncommon isostructural nanocage-based 3D Ln-MOFs, 1-Ln (Ln = Eu, Tb, Gd and Dy), were constructed using a new diisophthalate ligand with active pyridyl sites, which exhibits highly efficient luminescent sensing for Cu(2+) ions and selective CO2 capture.
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Three new solvent-directed Cd(II)-based MOFs with unique luminescent properties and highly selective sensors for Cu2+ cations and nitrobenzene
TL;DR: Solid-state luminescent properties of the new solvent-induced metal-organic frameworks showed high selectivity and sensitivity for Cu(2+) ions and nitrobenzene because of the quenching effect, which thus could make it a potential crystalline material for detecting these substances.
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Copper-Catalyzed Coupling of Oxime Acetates with Aldehydes: A New Strategy for Synthesis of Pyridines
TL;DR: Copper-catalyzed coupling of oxime acetates with aldehydes offers a new strategy for the synthesis of highly substituted pyridines that tolerates a wide range of functionality and allows for rapid elaboration of the oximeacetates into a variety of substituted p Pyridines.
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Porous MOF with Highly Efficient Selectivity and Chemical Conversion for CO2.
TL;DR: A new Co(II)-based MOF, {[Co2(tzpa)(OH)(H2O)2]·DMF}n (1), was constructed by employing a tetrazolyl-carboxyl ligand H3tzpa, which possesses high CO2 adsorption capacity and significantly selective capture for CO2 over CH4 and CO in the temperature range of 298-333 K.