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Capillary-Induced Ge Uniformly Distributed in N-Doped Carbon Nanotubes with Enhanced Li-Storage Performance.Binder-Free and Carbon-Free 3D Porous Air Electrode for Li-O2 Batteries with High Efficiency, High Capacity, and Long Life.Small things make a big difference: binder effects on the performance of Li and Na batteries.Novel germanium/polypyrrole composite for high power lithium-ion batteriesHollow structured Li3VO4 wrapped with graphene nanosheets in situ prepared by a one-pot template-free method as an anode for lithium-ion batteries.CuS nanoflakes, microspheres, microflowers, and nanowires: synthesis and lithium storage properties.Hexagonal-shaped tin glycolate particles: a preliminary study of their suitability as li-ion insertion electrodes.A Metal-Free, Free-Standing, Macroporous Graphene@g-C₃N₄ Composite Air Electrode for High-Energy Lithium Oxygen Batteries.Carbon-Encapsulated Sn@N-Doped Carbon Nanotubes as Anode Materials for Application in SIBs.Ultrafine Mn3O4 Nanowires/Three-dimensional Graphene/Single-Walled Carbon Nanotube Composites: Superior Electrocatalysts for Oxygen Reduction and Enhanced Mg/air Batteries.Simply mixed commercial red phosphorus and carbon nanotube composite with exceptionally reversible sodium-ion storage.Graphite-Nanoplate-Coated Bi2 S3 Composite with High-Volume Energy Density and Excellent Cycle Life for Room-Temperature Sodium-Sulfide Batteries.Hollow MnCo2O4 submicrospheres with multilevel interiors: from mesoporous spheres to yolk-in-double-shell structures.MnO@carbon core-shell nanowires as stable high-performance anodes for lithium-ion batteries.Heterogeneous intergrowth xLi1.5Ni0.25Mn0.75O2.5·(1 - x)Li0.5Ni0.25Mn0.75O2 (0 ≤ x ≤ 1) composites: synergistic effect on electrochemical performance.Enhancing the high rate capability and cycling stability of LiMn₂O₄ by coating of solid-state electrolyte LiNbO₃.Highly reversible lithium storage in spheroidal carbon-coated silicon nanocomposites as anodes for lithium-ion batteries.Correction: A new, cheap, and productive FeP anode material for sodium-ion batteries.Large-Scale Exfoliation of Inorganic Layered Compounds in Aqueous Surfactant SolutionsLithium-polymer battery based on an ionic liquid–polymer electrolyte composite for room temperature applicationsA Facile Synthesis of High-Surface-Area Sulfur-Carbon Composites for Li/S BatteriesA new, cheap, and productive FeP anode material for sodium-ion batteriesSn4+xP3@ Amorphous Sn-P Composites as Anodes for Sodium-Ion Batteries with Low Cost, High Capacity, Long Life, and Superior Rate CapabilityHollow hematite nanosphere/carbon nanotube composite: mass production and its high-rate lithium storage propertiesDirect scattered growth of MWNT on Si for high performance anode material in Li-ion batteriesElectrochemical hydrogen storage in single-walled carbon nanotube paperFoam-like, microstructural SnO2-carbon composite thin films synthesized via a polyol-assisted thermal decomposition methodFlame spray-pyrolyzed vanadium oxide nanoparticles for lithium battery cathodesEnhanced cycling performance of nanocrystalline Fe3O4/C as anode material for lithium-ion batteriesOne-step spray pyrolysis synthesized CuO-carbon composite combined with carboxymethyl cellulose binder as anode for lithium-ion batteriesPorous AgPd-Pd Composite Nanotubes as Highly Efficient Electrocatalysts for Lithium-Oxygen BatteriesA hybrid gel-solid-state polymer electrolyte for long-life lithium oxygen batteriesThe mechanism of the one-step synthesis of hollow-structured Li(3)VO(4) as an anode for lithium-ion batteriesCritical Advances in Ambient Air Operation of Nonaqueous Rechargeable Li-Air BatteriesFree-Standing Three-Dimensional CuCo2S4 Nanosheet Array with High Catalytic Activity as an Efficient Oxygen Electrode for Lithium-Oxygen BatteriesComponent-Interaction Reinforced Quasi-Solid Electrolyte with Multifunctionality for Flexible Li-O2 Battery with Superior Safety under Extreme ConditionsUniform Polypyrrole Layer-Coated Sulfur/Graphene Aerogel via the Vapor-Phase Deposition Technique as the Cathode Material for Li-S BatteriesSelf-assembling RuO2 nanogranulates with few carbon layers as an interconnected nanoporous structure for lithium-oxygen batteries
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Q30101073-B83B9B1D-B5D1-41E9-92F8-684ACED930E0Q36000991-5FA6F89C-587B-485C-913A-AD1C59ED4A11Q38230528-E8248F1A-4D9B-496E-807C-30692CF86A41Q42849905-3696464D-7E2B-4B99-9967-7FE16122FB35Q45742109-D6A2FA31-22E4-4FFA-A656-1C4E19583455Q46218226-D71C31B4-E98E-48FA-AE77-DC63328432B4Q46669005-9629082E-6EC6-4FEC-8C32-E467FB40F3E9Q46771579-46F32339-6288-4634-B893-1D6A7378BB1CQ47589394-3EB16562-3CFD-48FC-8B0D-CF8A260A0D24Q49039904-8D054E9E-CB4A-4B94-A4D7-5EF0EAE13EE3Q50484172-9B9DC905-E432-41BD-A7F2-7030E2558453Q51608140-4FAF6A47-9A4A-4A23-A0FF-04ADF680E3F4Q51767410-C274B5FD-B51B-4778-9587-671AB472026CQ51798696-B7081C7B-0313-4562-9139-BC70BB298C7EQ53179026-14A6BF6B-26ED-4A45-90D0-5F7B2E4BCFCDQ53370194-99C1C267-7F1B-416A-B5E3-64341CA2B6B2Q54184170-0BF1B064-1B21-4C63-BCEC-BCACB17D2A63Q54401545-186C7E7D-F97A-4346-A898-C25132132CB3Q58902182-D6821E28-F224-4FF5-8B4F-5E6216A41606Q60256054-A51FF77C-F118-4AEC-B9B0-FEA1D8F31E70Q62474499-C3C9F464-CF6B-43B4-A654-686877F8BAC3Q62474500-006B4085-6144-4AA7-B46D-2937E279EEE9Q62474594-F2FCF844-0797-40A7-B4A3-57D370A308F0Q62474670-4FA3FCCA-CA2D-46B6-8A6A-0E7A2C885AABQ82269629-61744B2D-06D9-4769-9161-A9D181D60C24Q83011429-3D9DC073-532D-419E-B431-D94E7DFBA3A8Q83685818-B64A6A94-599A-4C88-8951-112205044B20Q83782284-244A083C-F5B6-4884-B328-F3A1B3687997Q84217856-A245B03A-6025-42B8-9AA4-E997B2AA94CFQ84217892-67CBC990-C00C-43D6-9A9A-29CD6BB84C09Q86250170-6B8A2739-E14F-412C-9B7B-4E8CE3E190E3Q87117204-34EDB148-CFDD-427E-8948-8633AF2BD355Q87574875-4EAD2853-A451-4278-8FA0-BEA96EE5E14AQ90162114-3B88A7F6-89F7-4C03-8E67-EEC555F55D23Q90940578-5734707F-1659-4B24-8C7B-54862D810350Q90995045-BA3279A1-B0A5-42EC-918C-9752A8034758Q92547000-79665DAA-BC2D-4E06-8C3B-6F02A1BAD03FQ95940515-B8AAB43C-22E4-438D-A372-2711C7F93C74
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description
researcher ORCID ID = 0000-0002-1407-2166
@en
wetenschapper
@nl
name
Jiazhao Wang
@ast
Jiazhao Wang
@en
Jiazhao Wang
@es
Jiazhao Wang
@nl
type
label
Jiazhao Wang
@ast
Jiazhao Wang
@en
Jiazhao Wang
@es
Jiazhao Wang
@nl
prefLabel
Jiazhao Wang
@ast
Jiazhao Wang
@en
Jiazhao Wang
@es
Jiazhao Wang
@nl
P1153
9335182000
P31
P496
0000-0002-1407-2166