VIAF

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Leader     00000nz a2200037n 45 0
001     WKP|Q87960863  (VIAF cluster)  (Authority/Source Record)
003     WKP
005     20241120235952.0
008     241120nneanz||abbn n and d
035 ‎‡a  (WKP)Q87960863‏
024 ‎‡a  0000-0002-9650-6385‏ ‎‡2  orcid‏
035 ‎‡a  (OCoLC)Q87960863‏
100 0 ‎‡a  Jun-Tao Li‏ ‎‡c  researcher‏ ‎‡9  en‏
400 0 ‎‡a  Jun-Tao Li‏ ‎‡c  wetenschapper‏ ‎‡9  nl‏
670 ‎‡a  Author's 3D Networks of S-Doped Fe/N/C with Hierarchical Porosity for Efficient Oxygen Reduction in Polymer Electrolyte Membrane Fuel Cells.‏
670 ‎‡a  Author's A Natural Biopolymer Film as a Robust Protective Layer to Effectively Stabilize Lithium-Metal Anodes‏
670 ‎‡a  Author's Aluminum-Based Metal-Organic Frameworks Derived Al2O3-Loading Mesoporous Carbon as a Host Matrix for Lithium-Metal Anodes‏
670 ‎‡a  Author's Co3O4@(Fe-Doped)Co(OH)2 Microfibers: Facile Synthesis, Oriented-Assembly, Formation Mechanism, and High Electrocatalytic Activity.‏
670 ‎‡a  Author's Core-Shell Structured S@Co(OH)2 with a Carbon-Nanofiber Interlayer: A Conductive Cathode with Suppressed Shuttling Effect for High-Performance Lithium-Sulfur Batteries‏
670 ‎‡a  Author's Cu2+ Dual-Doped Layer-Tunnel Hybrid Na0.6Mn1- xCu xO2 as a Cathode of Sodium-Ion Battery with Enhanced Structure Stability, Electrochemical Property, and Air Stability.‏
670 ‎‡a  Author's Enabling Lithium-Metal Anode Encapsulated in a 3D Carbon Skeleton with a Superior Rate Performance and Capacity Retention in Full Cells‏
670 ‎‡a  Author's Germanium Crystalline Nanomaterials for Li-Ion Storage Prepared by Decomposing LiZnGe in Air‏
670 ‎‡a  Author's High-Energy Density Li metal Dual-Ion Battery with a Lithium Nitrate-Modified Carbonate-Based Electrolyte‏
670 ‎‡a  Author's Improving the Electrochemical Property of Silicon Anodes through Hydrogen-Bonding Cross-Linked Thiourea-Based Polymeric Binders‏
670 ‎‡a  Author's Ion-Doping-Site-Variation-Induced Composite Cathode Adjustment: A Case Study of Layer-Tunnel Na0.6MnO2 with Mg2+ Doping at Na/Mn Site‏
670 ‎‡a  Author's Layered/Spinel Heterostructured and Hierarchical Micro/Nanostructured Li-Rich Cathode Materials with Enhanced Electrochemical Properties for Li-Ion Batteries.‏
670 ‎‡a  Author's Mn-Based Cathode with Synergetic Layered-Tunnel Hybrid Structures and Their Enhanced Electrochemical Performance in Sodium Ion Batteries.‏
670 ‎‡a  Author's Novel MnO-Graphite Dual-Ion Battery and New Insights into Its Reaction Mechanism during Initial Cycle by Operando Techniques‏
670 ‎‡a  Author's Novel Sulfur Host Composed of Cobalt and Porous Graphitic Carbon Derived from MOFs for the High-Performance Li-S Battery.‏
670 ‎‡a  Author's Origin of Structural Evolution in Capacity Degradation for Overcharged NMC622 via Operando Coupled Investigation.‏
670 ‎‡a  Author's Revealing of the Activation Pathway and Cathode Electrolyte Interphase Evolution of Li-Rich 0.5Li2MnO3·0.5LiNi0.3Co0.3Mn0.4O2 Cathode by in Situ Electrochemical Quartz Crystal Microbalance‏
670 ‎‡a  Author's Tuning Electrochemical Properties of Li-Rich Layered Oxide Cathodes by Adjusting Co/Ni Ratios and Mechanism Investigation Using in situ X-ray Diffraction and Online Continuous Flow Differential Electrochemical Mass Spectrometry.‏
909 ‎‡a  (orcid) 0000000296506385‏ ‎‡9  1‏
919 ‎‡a  novelsulfurhostcomposedofcobaltandporousgraphiticcarbonderivedfrommofsforthehighperformance51sbattery‏ ‎‡A  Novel Sulfur Host Composed of Cobalt and Porous Graphitic Carbon Derived from MOFs for the High-Performance Li-S Battery.‏ ‎‡9  1‏
919 ‎‡a  3dnetworksofsdopedfen100withhierarchicalporosityforefficientoxygenreductioninpolymerelectrolytemembranefuelcells‏ ‎‡A  3D Networks of S-Doped Fe/N/C with Hierarchical Porosity for Efficient Oxygen Reduction in Polymer Electrolyte Membrane Fuel Cells.‏ ‎‡9  1‏
919 ‎‡a  naturalbiopolymerfilmasarobustprotectivelayertoeffectivelystabilizelithiummetalanodes‏ ‎‡A  A Natural Biopolymer Film as a Robust Protective Layer to Effectively Stabilize Lithium-Metal Anodes‏ ‎‡9  1‏
919 ‎‡a  aluminumbasedmetalorganicframeworksderivedal2o3loadingmesoporouscarbonasahostmatrixforlithiummetalanodes‏ ‎‡A  Aluminum-Based Metal-Organic Frameworks Derived Al2O3-Loading Mesoporous Carbon as a Host Matrix for Lithium-Metal Anodes‏ ‎‡9  1‏
919 ‎‡a  co3o4@fedopedco52microfibersfacilesynthesisorientedassemblyformationmechanismandhighelectrocatalyticactivity‏ ‎‡A  Co3O4@(Fe-Doped)Co(OH)2 Microfibers: Facile Synthesis, Oriented-Assembly, Formation Mechanism, and High Electrocatalytic Activity.‏ ‎‡9  1‏
919 ‎‡a  coreshellstructureds@co52withacarbonnanofiberinterlayeraconductivecathodewithsuppressedshuttlingeffectforhighperformancelithiumsulfurbatteries‏ ‎‡A  Core-Shell Structured S@Co(OH)2 with a Carbon-Nanofiber Interlayer: A Conductive Cathode with Suppressed Shuttling Effect for High-Performance Lithium-Sulfur Batteries‏ ‎‡9  1‏
919 ‎‡a  cu2+dualdopedlayertunnelhybridna06mn1xcuxo2asacathodeofsodiumionbatterywithenhancedstructurestabilityelectrochemicalpropertyandairstability‏ ‎‡A  Cu2+ Dual-Doped Layer-Tunnel Hybrid Na0.6Mn1- xCu xO2 as a Cathode of Sodium-Ion Battery with Enhanced Structure Stability, Electrochemical Property, and Air Stability.‏ ‎‡9  1‏
919 ‎‡a  enablinglithiummetalanodeencapsulatedina3dcarbonskeletonwithasuperiorrateperformanceandcapacityretentioninfullcells‏ ‎‡A  Enabling Lithium-Metal Anode Encapsulated in a 3D Carbon Skeleton with a Superior Rate Performance and Capacity Retention in Full Cells‏ ‎‡9  1‏
919 ‎‡a  germaniumcrystallinenanomaterialsfor51ionstoragepreparedbydecomposinglizngeinair‏ ‎‡A  Germanium Crystalline Nanomaterials for Li-Ion Storage Prepared by Decomposing LiZnGe in Air‏ ‎‡9  1‏
919 ‎‡a  highenergydensity51metaldualionbatterywithalithiumnitratemodifiedcarbonatebasedelectrolyte‏ ‎‡A  High-Energy Density Li metal Dual-Ion Battery with a Lithium Nitrate-Modified Carbonate-Based Electrolyte‏ ‎‡9  1‏
919 ‎‡a  improvingtheelectrochemicalpropertyofsiliconanodesthroughhydrogenbondingcrosslinkedthioureabasedpolymericbinders‏ ‎‡A  Improving the Electrochemical Property of Silicon Anodes through Hydrogen-Bonding Cross-Linked Thiourea-Based Polymeric Binders‏ ‎‡9  1‏
919 ‎‡a  iondopingsitevariationinducedcompositecathodeadjustmentacasestudyoflayertunnelna06mno2withmg2+dopingatnamnsite‏ ‎‡A  Ion-Doping-Site-Variation-Induced Composite Cathode Adjustment: A Case Study of Layer-Tunnel Na0.6MnO2 with Mg2+ Doping at Na/Mn Site‏ ‎‡9  1‏
919 ‎‡a  layeredspinelheterostructuredandhierarchicalmicronanostructured51richcathodematerialswithenhancedelectrochemicalpropertiesfor51ionbatteries‏ ‎‡A  Layered/Spinel Heterostructured and Hierarchical Micro/Nanostructured Li-Rich Cathode Materials with Enhanced Electrochemical Properties for Li-Ion Batteries.‏ ‎‡9  1‏
919 ‎‡a  mnbasedcathodewithsynergeticlayeredtunnelhybridstructuresandtheirenhancedelectrochemicalperformanceinsodiumionbatteries‏ ‎‡A  Mn-Based Cathode with Synergetic Layered-Tunnel Hybrid Structures and Their Enhanced Electrochemical Performance in Sodium Ion Batteries.‏ ‎‡9  1‏
919 ‎‡a  novelmnographitedualionbatteryandnewinsightsintoitsreactionmechanismduringinitialcyclebyoperandotechniques‏ ‎‡A  Novel MnO-Graphite Dual-Ion Battery and New Insights into Its Reaction Mechanism during Initial Cycle by Operando Techniques‏ ‎‡9  1‏
919 ‎‡a  originofstructuralevolutionincapacitydegradationforoverchargednmc622viaoperandocoupledinvestigation‏ ‎‡A  Origin of Structural Evolution in Capacity Degradation for Overcharged NMC622 via Operando Coupled Investigation.‏ ‎‡9  1‏
919 ‎‡a  revealingoftheactivationpathwayandcathodeelectrolyteinterphaseevolutionof51rich05li2mno305lini03co03mn04o2cathodebyinsituelectrochemicalquartzcrystalmicrobalance‏ ‎‡A  Revealing of the Activation Pathway and Cathode Electrolyte Interphase Evolution of Li-Rich 0.5Li2MnO3·0.5LiNi0.3Co0.3Mn0.4O2 Cathode by in Situ Electrochemical Quartz Crystal Microbalance‏ ‎‡9  1‏
919 ‎‡a  tuningelectrochemicalpropertiesof51richlayeredoxidecathodesbyadjustingco2ratiosandmechanisminvestigationusinginsitu10raydiffractionandonlinecontinuousflowdifferentialelectrochemicalmassspectrometry‏ ‎‡A  Tuning Electrochemical Properties of Li-Rich Layered Oxide Cathodes by Adjusting Co/Ni Ratios and Mechanism Investigation Using in situ X-ray Diffraction and Online Continuous Flow Differential Electrochemical Mass Spectrometry.‏ ‎‡9  1‏
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