about
A combinatorial approach towards water-stable metal-organic frameworks for highly efficient carbon dioxide separation.Improving Water-Treatment Performance of Zirconium Metal-Organic Framework Membranes by Postsynthetic Defect Healing.Mechanical Properties of Microcrystalline Metal-Organic Frameworks (MOFs) Measured by Bimodal Amplitude Modulated-Frequency Modulated Atomic Force Microscopy.Probing nanoscale functionalities of metal-organic framework nanocrystals.Breathing-induced new phase transition in an MIL-53(Al)-NH2 metal-organic framework under high methane pressures.Structural-failure resistance of metal-organic frameworks toward multiple-cycle CO2 sorption.A two-dimensional conjugated aromatic polymer via C-C coupling reaction.De facto methodologies toward the synthesis and scale-up production of UiO-66-type metal-organic frameworks and membrane materials.A Modulated Hydrothermal (MHT) Approach for the Facile Synthesis of UiO-66-Type MOFs.Combination of Optimization and Metalated-Ligand Exchange: An Effective Approach to Functionalize UiO-66(Zr) MOFs for CO2 Separation.Mechanoassisted Synthesis of Sulfonated Covalent Organic Frameworks with High Intrinsic Proton Conductivity.Improving the hydrogen selectivity of graphene oxide membranes by reducing non-selective pores with intergrown ZIF-8 crystals.Modulated Hydrothermal Synthesis of UiO-66(Hf)-Type Metal-Organic Frameworks for Optimal Carbon Dioxide Separation.Synthesis of a Sulfonated Two-Dimensional Covalent Organic Framework as an Efficient Solid Acid Catalyst for Biobased Chemical Conversion.Two-dimensional metal-organic framework with wide channels and responsive turn-on fluorescence for the chemical sensing of volatile organic compounds.A 2D metal–organic framework composed of a bi-functional ligand with ultra-micropores for post-combustion CO2 captureXAS investigation of silica aerogel supported cobalt rhenium catalysts for ammonia decomposition
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Q35225206-C0174251-4748-48EB-80C7-52F9276F1F0EQ47585007-EF434169-EBAC-4359-A194-00411E9CBCBBQ47743929-49039C1C-7579-4D1A-AB59-953331AC7030Q47797782-D75B0528-1E97-4AA3-B8E9-2D69AFDEBB95Q47856376-BF4AB662-5C5C-4CBC-BAFE-5CC022C4CF1DQ47930347-61BAF56C-54DB-4050-9793-93C88CE14F9FQ48108123-FCB6FDE2-D36A-46C8-B8D3-46C27FC8BC13Q50241446-C31D8A57-1447-47FC-9078-AFF986BDEBD8Q50278492-AE18136C-5902-4DF3-AEE1-080C9A73A0EAQ50922793-5B534D70-4A61-4D06-949B-DDE9EA5779F5Q51262812-4C146A93-097D-4176-94A4-7E08410E945DQ51331132-F532BD22-AF56-4A76-A5EB-F1D571C6674BQ51567912-956AC706-6337-4DC3-AD72-2C8E6A17D741Q51693444-BEB4BCB7-1053-41CE-9B06-301346C773B1Q53552373-FF4F3B50-718E-4416-83BF-0823DD4BE55FQ59902540-4FFC4D96-332E-461F-9183-CC26682FD492Q96612392-DBB11AB5-AF5A-409B-BD8B-13FE092B4EC0
P50
description
researcher
@en
հետազոտող
@hy
name
Zhigang Hu
@ast
Zhigang Hu
@en
Zhigang Hu
@es
Zhigang Hu
@nl
type
label
Zhigang Hu
@ast
Zhigang Hu
@en
Zhigang Hu
@es
Zhigang Hu
@nl
prefLabel
Zhigang Hu
@ast
Zhigang Hu
@en
Zhigang Hu
@es
Zhigang Hu
@nl
P106
P31
P496
0000-0003-1916-6484