19 Papers
260 Citations
Qi Wei is an academic researcher from Beijing Institute of Technology. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 10, co-authored 19 publications. Previous affiliations of Qi Wei include Chinese Academy of Sciences.
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Papers
Highly regio- and stereoselective halohydroxylation reaction of 1,2-allenyl phenyl sulfoxides. Reaction scope, mechanism, and the corresponding pd- or ni-catalyzed selective coupling reactions.
Shengming Ma,Hongjun Ren,Qi Wei +2 more
TL;DR: Optically active stereodefined multisubstituted allylic alcohols can be prepared by the reaction of the easily available optically active propargyliccohols with sulfinyl chloride followed by E-halohydroxylation and a selective Pd- or Ni-coupling reaction.
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Deep-Ultraviolet Nonlinear Optics in a Borate Framework with 21-Ring Channels
TL;DR: UV/Vis-NIR diffuse reflectance analysis indicates that the new borate LiBa3 has a wide transparency range with the short-wavelength absorption edge below 200 nm, and characteristics reveal that the compound is a promising deep-UV nonlinear optical material.
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Na2B10O17·H2en: a three-dimensional open-framework layered borate co-templated by inorganic cations and organic amines
TL;DR: A layered borate Na2B10O17·H2en (1, en = ethylenediamine) with three-dimensional microporosity within the layers has been synthesized under solvothermal conditions by using organic amines and inorganic cations as the templates.
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A zeolite CAN-type aluminoborate with gigantic 24-ring channels
TL;DR: A cancrinite type aluminoborate with gigantic 24-ring channels made under solvothermal conditions using Al(i-PrO)3 as the Al source and amines as the structure directing agents, resulting in an unprecedented 3D intersecting channel system.
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Two deep-ultraviolet nonlinear optical alkaline-earth metal borates based on different types of oxoboron clusters
TL;DR: Two non-centrosymmetric alkaline-earth metal borates, Ca2 and Ba2, have been synthesized under solvothermal conditions and are phase-matchable materials with second-harmonic generation (SHG) responses of ∼1.3 and ∼0.8 times that of KDP (KH2PO4), respectively.
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