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Superior removal of arsenic from water with zirconium metal-organic framework UiO-66.Electrospun polyurethane-core and gelatin-shell coaxial fibre coatings for miniature implantable biosensors.Dense ceramic catalytic membranes and membrane reactors for energy and environmental applications.Applications of water stable metal-organic frameworks.YSZ-Reinforced Alumina Multi-Channel Capillary Membranes for Micro-Filtration.Crystal nuclei templated nanostructured membranes prepared by solvent crystallization and polymer migration.UV-Enhanced Sacrificial Layer Stabilised Graphene Oxide Hollow Fibre Membranes for Nanofiltration.Polyaniline hollow fibres for organic solvent nanofiltration.Water transport through graphene oxide membranes: the roles of driving forces.A metal-organic framework/α-alumina composite with a novel geometry for enhanced adsorptive separation.Use of a Ceramic Membrane to Improve the Performance of Two-Separate-Phase Biocatalytic Membrane Reactor.Morphology, performance and stability of multi-bore capillary La 0.6 Sr 0.4 Co 0.2 Fe 0.8 O 3-δ oxygen transport membranesMicropatterned Ultrathin MOF Membranes with Enhanced Molecular Sieving PropertyDry reforming of methane using Pd-based membrane reactors fabricated from different substratesCeramic hollow fibres catalytic enhanced reactors for glycerol steam reformingStructurally modified polybenzimidazole hollow fibre membranes with enhanced gas permeation propertiesRecent fabrication techniques for micro-tubular solid oxide fuel cell support: A reviewComparison Between Anode-Supported and Electrolyte-Supported Ni-CGO-LSCF Micro-tubular Solid Oxide Fuel CellsDual-layer hollow fibres with different anode structures for micro-tubular solid oxide fuel cellsA dual layer Ni/Ni-YSZ hollow fibre for micro-tubular SOFC anode support with a current collectorHigh-Performance, Anode-Supported, Microtubular SOFC Prepared from Single-Step-Fabricated, Dual-Layer Hollow FibersNI/NI-YSZ Current Collector/Anode Dual Layer Hollow Fibers for Micro-Tubular Solid Oxide Fuel CellsNovel fabrication technique of hollow fibre support for micro-tubular solid oxide fuel cellsElectrolyte thickness control and its effect on electrolyte/anode dual-layer hollow fibres for micro-tubular solid oxide fuel cellsFabrication by Co-extrusion and electrochemical characterization of micro-tubular hollow fibre solid oxide fuel cellsMorphological studies of macrostructure of Ni–CGO anode hollow fibres for intermediate temperature solid oxide fuel cellsSingle-step fabrication and characterisations of electrolyte/anode dual-layer hollow fibres for micro-tubular solid oxide fuel cellsCo-Extrusion / Phase Inversion / Co-Sintering for Fabrication of Hollow Fiber Solid Oxide Fuel CellsNovel co-extruded electrolyte–anode hollow fibres for solid oxide fuel cellsHighly Water-Stable Zirconium Metal-Organic Framework UiO-66 Membranes Supported on Alumina Hollow Fibers for DesalinationNanopapers for organic solvent nanofiltration
P50
Q36272842-1146CD32-24A6-4C67-95B8-DE0B7C5BE748Q37671441-80E92585-F92C-464E-ABBA-F4597F7E9982Q37902940-FC1609B9-55D6-4AF3-92D1-0B17BC2E0C56Q38842594-761909E7-BE47-431E-888C-28737D9E2D53Q39650712-D07333AD-4921-4A17-A3A3-93E6039584F0Q41146724-27723ABD-8059-4969-87D2-254A0DB2B41BQ41945042-9A1D3EE5-8C7D-4381-AF31-478790F666EAQ47203932-487F4591-BEA5-4F2C-A03B-B9141E139450Q49715802-55C05423-FD7F-4DC7-A320-D4EC1E77D861Q51277656-E8E094D7-8415-49B2-8967-7B775BE16381Q51439124-4F6C66D2-A391-4696-ABB7-5A9AF9182153Q56523698-9A5E0304-D563-4058-99B4-569A56E9754FQ57461219-C1676F13-2E13-46E2-BA94-FCF4F9A718E1Q60165409-99A5A5BA-DF75-4F56-BC03-B32AB54FDE43Q60165651-94E38834-72A4-4796-B1A5-5DF081016FE1Q60895365-42348F77-1AC6-4FE3-BE89-4722C3457F9EQ65556883-05ACE692-4594-44B6-84F2-71D13055689CQ65556898-2F41207F-492B-492A-AFAF-47B9AC89346BQ65556900-5051DE11-250F-4D07-B8B1-B122F2CE53C5Q65556902-E36303A8-BB63-480F-AE3A-C395F2AE8C97Q65556903-60AD6352-79C1-4195-8756-A33CAFF599D1Q65556904-45D7DB42-A5CD-40E3-B95A-B6C19304DF2EQ65556905-538A8C06-AF16-4EAA-A7D7-7B756B1426C5Q65556906-3505117C-3DE3-4F47-8265-8DC46683EC55Q65556907-057917F4-AD37-4D4F-9594-A2356BDA6AEBQ65556908-94FE3199-FA58-4BFA-BC5D-38256DD357DBQ65556909-27DED726-71D7-4B6F-A9C1-37E3E5E4362FQ65556910-3CE59466-A381-47E1-B42B-D4FE1D7BB356Q65556911-6B36F30A-BA45-45C3-A0F2-36768DD822A6Q85239050-313F6D2C-4C23-42B0-A0EC-7479CB8AF9A2Q87724151-FC76B26B-9D11-44FF-8E71-FF0D366C0690
P50
description
researcher
@en
հետազոտող
@hy
name
Kang Li
@ast
Kang Li
@en
Kang Li
@es
Kang Li
@nl
Kang Li
@sl
type
label
Kang Li
@ast
Kang Li
@en
Kang Li
@es
Kang Li
@nl
Kang Li
@sl
prefLabel
Kang Li
@ast
Kang Li
@en
Kang Li
@es
Kang Li
@nl
Kang Li
@sl
P1053
G-8094-2012
P106
P1153
6505451560
P31
P3829
P496
0000-0003-2365-7438