about
Superflexible Wood.High-capacity, low-tortuosity, and channel-guided lithium metal anode.Synthesis of Hierarchically Porous Sandwich-Like Carbon Materials for High-Performance Supercapacitors.Flexible membranes of MoS2/C nanofibers by electrospinning as binder-free anodes for high-performance sodium-ion batteries.TiO2-B nanosheets/anatase nanocrystals co-anchored on nanoporous graphene: in situ reduction-hydrolysis synthesis and their superior rate performance as an anode material.Highly Compressible, Anisotropic Aerogel with Aligned Cellulose Nanofibers.Lightweight, Mesoporous, and Highly Absorptive All-Nanofiber Aerogel for Efficient Solar Steam Generation.Three-Dimensional Printed Thermal Regulation Textiles.Highly Anisotropic Conductors.Highly Flexible and Efficient Solar Steam Generation Device.Granadilla-Inspired Structure Design for Conversion/Alloy-Reaction Electrode with Integrated Lithium Storage Behaviors.Encapsulation of Metallic Na in an Electrically Conductive Host with Porous Channels as a Highly Stable Na Metal Anode.Processing bulk natural wood into a high-performance structural material.Anisotropic, Mesoporous Microfluidic Framework with Scalable, Aligned Cellulose Nanofibers.3D-Printed, All-in-One Evaporator for High-Efficiency Solar Steam Generation under 1 Sun Illumination.Rational synthesis of carbon-coated hollow Ge nanocrystals with enhanced lithium-storage properties.Na(+) intercalation pseudocapacitance in graphene-coupled titanium oxide enabling ultra-fast sodium storage and long-term cycling.In Operando Mechanism Analysis on Nanocrystalline Silicon Anode Material for Reversible and Ultrafast Sodium Storage.Anisotropic, lightweight, strong, and super thermally insulating nanowood with naturally aligned nanocellulose.Flexible and Binder-Free Electrodes of Sb/rGO and Na3V2(PO4)3/rGO Nanocomposites for Sodium-Ion Batteries.Bismuth oxyiodide nanosheets: a novel high-energy anode material for lithium-ion batteries.Self-assembled 3D hierarchical sheaf-like Nb3O7(OH) nanostructures with enhanced photocatalytic activity.Nanocellulose toward Advanced Energy Storage Devices: Structure and ElectrochemistryA nanofluidic ion regulation membrane with aligned cellulose nanofibersA radiative cooling structural materialThree-Dimensional, Solid-State Mixed Electron-Ion Conductive Framework for Lithium Metal AnodeFrom Wood to Textiles: Top-Down Assembly of Aligned Cellulose NanofibersClear Wood toward High-Performance Building MaterialsGeneral, Vertical, Three-Dimensional Printing of Two-Dimensional Materials with Multiscale AlignmentDecoupling Ionic and Electronic Pathways in Low-Dimensional Hybrid ConductorsOne-Step, Catalyst-Free, Scalable in Situ Synthesis of Single-Crystal Aluminum Nanowires in Confined Graphene SpaceNanocellulose-Enabled, All-Nanofiber, High-Performance SupercapacitorSingle-digit-micrometer thickness wood speakerShape-driven arrest of coffee stain effect drives the fabrication of carbon-nanotube-graphene-oxide inks for printing embedded structures and temperature sensorsRapid Processing of Whole Bamboo with Exposed, Aligned Nanofibrils toward a High-Performance Structural MaterialA High-Performance Self-Regenerating Solar Evaporator for Continuous Water Desalination
P50
Q38702597-EC93976E-E493-4B40-A899-0706601A33FAQ38742655-F9601B83-64D6-460D-B2A4-198B301BD8BFQ38812144-8F0235FB-8DC1-41FB-8B86-6BD3FBC84476Q42292855-0FCDDCBC-A9EC-4880-8566-6C875367BAC8Q45170175-22C0A1D8-91E7-4A22-B99F-0D8281EDCB56Q47235072-66DAD60E-FBB2-4C50-B40C-1814DC2E6B45Q47307057-392D0236-04DE-400F-AC0C-AB6505FA7043Q47407979-CF0D1E46-A2E0-40B8-9CCC-5CB78B95156FQ47663296-E223D8C5-373B-4CCA-8D5B-C71335883578Q48008487-9BB8AA45-6D3A-455D-BD0B-B64D31DC4BB2Q48063316-548E94DD-CDE5-44F1-87CA-1178DFE19540Q48207962-5FAEFE63-3BBB-4F2A-A0EA-2C556B4143B5Q48506238-265D915A-1E60-494F-AA7E-94335B8F6291Q50200292-55A98E59-DB37-433E-91FF-051DAA9452D2Q50674352-33979D10-6C8F-4E5D-8857-457F0F43417BQ50803608-B62965C4-7112-477A-B0FB-6E12D88B9F7AQ50985038-03128C54-B7B5-488D-82CA-AB204522633BQ51093841-41BECCBA-FEDF-46A3-8BF3-E4DA87CB1CF4Q53079237-C9107692-4B1E-4B07-BC77-CE5A96A091CAQ53249323-13996CA9-C056-410F-8FEA-1A5BD7101508Q53338987-8BCAA9A8-D529-4D21-99A7-D237176D32BAQ53654868-0E6FE4CD-425B-4BCF-8B8F-FD007A342CF7Q57286902-A945BD7D-9415-4784-8606-90560E8F4B6BQ64115902-AF813E28-F73E-4BAD-A91B-7A911321E7E1Q68158515-4635B063-BB43-4D81-A9BC-A5B30A5BCF31Q88772625-C087D069-4F73-4BD2-8E9E-65D3BA386EA4Q89037909-3C79978D-8305-44D1-A61E-0912F424D7A3Q90015420-34E3A6CD-05DA-4DAA-91FD-A24713E1334AQ90478777-41C190F1-B928-4FBC-A9A7-91C6F6FE10FDQ90921887-8AB3DE19-C063-41BB-BE49-91710D121BEFQ91051133-4862B525-B1B2-4453-8424-691227EE2E98Q91108063-84AE08F1-2AFE-425B-85CD-548F1E6F64EFQ91198483-1C36ACE9-F136-4D2B-A994-D5B1B963C232Q91633742-46320158-6E28-4A8D-9F6B-765D549AC546Q91801730-42D5DEFE-C99E-4D6A-A494-4EF15EE4ECBEQ93120321-E7B3A8DF-6F3B-4E37-B368-0BE221BB78D6
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Chaoji Chen
@ast
Chaoji Chen
@en
Chaoji Chen
@es
Chaoji Chen
@nl
Chaoji Chen
@sl
type
label
Chaoji Chen
@ast
Chaoji Chen
@en
Chaoji Chen
@es
Chaoji Chen
@nl
Chaoji Chen
@sl
altLabel
Chaoji Chen
@en
prefLabel
Chaoji Chen
@ast
Chaoji Chen
@en
Chaoji Chen
@es
Chaoji Chen
@nl
Chaoji Chen
@sl
P1053
G-7577-2017
P106
P1960
3BLQH4UAAAAJ
P2038
Chen_Chaoji3
P31
P3829
P3835
chaoji-chen2
P496
0000-0001-9553-554X
P569
2000-01-01T00:00:00Z