about
Trigonal antiprismatic Co(ii) single molecule magnets with large uniaxial anisotropies: importance of Raman and tunneling mechanisms.A cobalt(ii) spin-crossover compound with partially charged TCNQ radicals and an anomalous conducting behavior.Size Effect of the Active Sites in UiO-66-Supported Nickel Catalysts Synthesized via Atomic Layer Deposition for Ethylene Hydrogenation.Effect of Redox "Non-Innocent" Linker on the Catalytic Activity of Copper-Catecholate-Decorated Metal-Organic Frameworks.Structural diversity and magnetic properties of six cobalt coordination polymers based on 2,2'-phosphinico-dibenzoate ligand.Conducting Molecular Nanomagnet of DyIII with Partially Charged TCNQ Radicals.Systematic Investigation of Controlled Nanostructuring of Mn12 Single-Molecule Magnets Templated by Metal-Organic Frameworks.Enforcing Ising-like magnetic anisotropy via trigonal distortion in the design of a W(v)-Co(ii) cyanide single-chain magnet.Room Temperature Synthesis of an 8-Connected Zr-Based Metal–Organic Framework for Top-Down Nanoparticle EncapsulationMagnetic ordering in TCNQ-based metal–organic frameworks with host–guest interactionsCatalytic chemoselective functionalization of methane in a metal−organic frameworkFrom Transition Metals to Lanthanides to Actinides: Metal-Mediated Tuning of Electronic Properties of Isostructural Metal–Organic FrameworksHighly Selective Acetylene Semihydrogenation Catalyzed by Cu Nanoparticles Supported in a Metal–Organic FrameworkGuest-Dependent Single-Crystal-to-Single-Crystal Phase Transitions in a Two-Dimensional Uranyl-Based Metal–Organic FrameworkMetal–Organic Frameworks with Metal–Catecholates for O2/N2 SeparationMetal-Organic Frameworks as Platforms for the Controlled Nanostructuring of Single-Molecule MagnetsSingle-Crystal Polycationic Polymers Obtained by Single-Crystal-to-Single-Crystal PhotopolymerizationA Flexible Interpenetrated Zirconium-Based Metal-Organic Framework with High Affinity toward AmmoniaPhase Transitions in Metal-Organic Frameworks Directly Monitored through In Situ Variable Temperature Liquid-Cell Transmission Electron Microscopy and In Situ X-ray DiffractionSqueezing the box: isoreticular contraction of pyrene-based linker in a Zr-based metal-organic framework for Xe/Kr separationModular Synthesis of Highly Porous Zr-MOFs Assembled from Simple Building Blocks for Oxygen StorageA Flexible Metal-Organic Framework with 4-Connected Zr6 NodesReticular Access to Highly Porous acs-MOFs with Rigid Trigonal Prismatic Linkers for Water SorptionTopology and porosity control of metal-organic frameworks through linker functionalizationVanadium Catalyst on Isostructural Transition Metal, Lanthanide, and Actinide Based Metal-Organic Frameworks for Alcohol OxidationBalancing volumetric and gravimetric uptake in highly porous materials for clean energyLigand-Directed Reticular Synthesis of Catalytically Active Missing Zirconium-Based Metal-Organic FrameworksAir oxidation of sulfur mustard gas simulants using a pyrene-based metal-organic framework photocatalystIntegration of Enzymes and Photosensitizers in a Hierarchical Mesoporous Metal-Organic Framework for Light-Driven CO2 ReductionStabilization of Photocatalytically Active Uranyl Species in a Uranyl-Organic Framework for Heterogeneous Alkane Fluorination Driven by Visible Light
P50
Q30368400-A60FE8D7-B704-4AB2-9C0C-ADDD2C75C92FQ41149234-B6D86E50-71E0-41E3-82DC-12C0DA0EF9E4Q47180599-E8CD790E-22FF-47A7-8489-B3355DC59308Q47218718-9BFAEA79-5815-4FB5-A007-1C76D6AD430CQ48192260-DFF602C3-A049-4236-9A47-DCAE281B8E6BQ48286615-23AF7DCB-3245-4C83-89ED-BD45FEFABCECQ48358534-8F374C5C-5DDB-4A81-9919-0664E9E38F42Q52599607-7864AA46-BF51-4CA6-BF1B-DBACC0F12280Q58230811-E67D997B-1323-4F66-9124-D276A56600BAQ59288952-EED30325-32DD-490B-BD75-B1FE1B55F041Q59356644-A550ED77-63AD-4F0F-9290-C36BBD25217CQ59758797-6069AC47-F8C6-43CF-8470-4208043A0302Q59758806-612C26FB-0E6D-47B5-B846-86FF99A4BFAEQ60329499-7EE3FE73-34FF-4B00-8DC7-6C1D93DF0028Q63943167-FD8F54E5-3792-41C3-B7C9-3508F6CAC3A2Q85580505-D0346FC9-737C-441E-9967-D9573C113389Q89526393-6C53FECE-B01C-4093-81FD-CDEF65C449D0Q89567954-A1F2185E-3AFD-420B-A467-D7985D2BCE5CQ89758266-DC524D34-2407-4DA4-B080-CBCE84AFC020Q90645590-8738D162-8AD2-4260-AE74-ED24F67D72F5Q90869481-27E7409A-65EC-45AB-8D85-BFD741493714Q90977181-7D9403BA-5E60-4DCB-A219-FD49DDF537E5Q91419802-8F52612F-C1C3-4EE0-B08C-671CA8A46158Q91667543-BEB7C5A6-1650-4573-8A4D-834954356315Q91984893-5863C2DC-9974-4F36-ADD3-E1B50DEE5D08Q91998206-6EA39FCC-E341-42FD-90E8-E0AC89FCD99AQ92171174-EA606F4C-7486-438E-ACEC-F6E14E7BA49DQ92541132-82D77085-7155-4D65-8791-0ED791BBE44EQ92579514-F83202FD-3BE2-40B1-BF6F-42913E29C598Q96134687-CD686DE6-F44C-4E63-9B3F-FFBC8B487C8D
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Xuan Zhang
@ast
Xuan Zhang
@en
Xuan Zhang
@es
Xuan Zhang
@nl
Xuan Zhang
@sl
type
label
Xuan Zhang
@ast
Xuan Zhang
@en
Xuan Zhang
@es
Xuan Zhang
@nl
Xuan Zhang
@sl
prefLabel
Xuan Zhang
@ast
Xuan Zhang
@en
Xuan Zhang
@es
Xuan Zhang
@nl
Xuan Zhang
@sl
P1053
G-2387-2015
P106
P1153
56007018700
P31
P3829
P496
0000-0001-8214-7265