about
Understanding and tuning the quantum-confinement effect and edge magnetism in zigzag graphene nanoribbonRole of 2D and 3D defects on the reduction of LaNiO3 nanoparticles for catalysis.Electrochemical phase diagrams of Ni from ab initio simulations: role of exchange interactions on accuracy.Tunable Negative Thermal Expansion in Layered Perovskites from Quasi-Two-Dimensional Vibrations.The diffusion of hydrogen monomers on hole-doped graphitic lattices: over-barrier transition and quantum tunneling.Adsorption configurations and scanning voltage determined STM images of small hydrogen clusters on bilayer graphene.Multifunctional two-dimensional semiconductors SnP: universal mechanism of layer-dependent electronic phase transitionFrom electronic structure to phase diagrams: A bottom-up approach to understand the stability of titanium–transition metal alloysImportance of coordination number and bond length in titanium revealed by electronic structure investigationsLocalized Symmetry Breaking for Tuning Thermal Expansion in ScF3 Nanoscale FrameworksModulation of the thermodynamic, kinetic, and magnetic properties of the hydrogen monomer on graphene by charge dopingContrasting Oxygen Reduction Reactions on Zero- and One-Dimensional Defects of MoS2 for Versatile ApplicationsHighly in-plane anisotropic 2D semiconductors β-AuSe with multiple superior properties: a first-principles investigationThermodynamics and kinetics of an oxygen adatom on pristine and functionalized graphene: insight gained into their anticorrosion propertiesCatalytic Enhancement of CO Oxidation on LaFeO3 Regulated by Ruddlesden-Popper Stacking Faults
P50
Q29012013-45492457-EEB4-424D-A58B-C23C1042FF43Q41564355-27F4B35D-5316-470B-8863-0FE04D7AA019Q46294297-AAC10B30-ED10-4E89-98BA-C543B64B730CQ51155278-617AE5EC-1ACA-4D51-A867-B280B454DC27Q51525994-F3C103E0-9F43-4635-AF13-3F9E6C6D4A1DQ54469935-0B45604B-3913-4796-9B14-0C215A65E499Q58089380-3BC16CC1-EAC6-476B-ACBA-75F76D6AF621Q59461479-153E96A2-4EBB-465C-B660-6225907113C8Q59461500-4EC08CBC-340E-49B6-8475-6AC9FD0B1BB6Q62681402-9513E315-26C3-4D0E-8C92-CBCCB1FCC604Q84767896-E874E0E6-1D09-49DB-9692-EF40E6DEEA68Q91255350-FA2E2B46-551E-4D3D-930A-4FA66C5C7AF2Q92812539-FBC818B5-6A3A-4B33-A7B2-BDBDD9A870A3Q92870742-1D3199B7-3D46-45D7-88BE-990F3223F3C8Q92952041-11BEAB51-A5FA-4FEA-AB31-1A03C9364AAE
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Liang-Feng Huang
@ast
Liang-Feng Huang
@en
Liang-Feng Huang
@es
Liang-Feng Huang
@nl
Liang-Feng Huang
@sl
type
label
Liang-Feng Huang
@ast
Liang-Feng Huang
@en
Liang-Feng Huang
@es
Liang-Feng Huang
@nl
Liang-Feng Huang
@sl
prefLabel
Liang-Feng Huang
@ast
Liang-Feng Huang
@en
Liang-Feng Huang
@es
Liang-Feng Huang
@nl
Liang-Feng Huang
@sl
P1053
G-5770-2010
P106
P31
P3829
P496
0000-0003-2937-5183