about
Three-dimensional Sponges with Super Mechanical Stability: Harnessing True Elasticity of Individual Carbon Nanotubes in Macroscopic Architectures.A Flexible Platform Containing Graphene Mesoporous Structure and Carbon Nanotube for Hydrogen EvolutionDirectly drawing self-assembled, porous, and monolithic graphene fiber from chemical vapor deposition grown graphene film and its electrochemical properties.Electro- and magneto-modulated ion transport through graphene oxide membranes.Torsion sensors of high sensitivity and wide dynamic range based on a graphene woven structure.Structure evolution of graphene oxide during thermally driven phase transformation: is the oxygen content really preserved?Precise Control of the Number of Layers of Graphene by Picosecond Laser Thinning.Stretchable and highly sensitive graphene-on-polymer strain sensors.TiO₂-coated carbon nanotube-silicon solar cells with efficiency of 15%Controllable Hysteresis and Threshold Voltage of Single-Walled Carbon Nano-tube Transistors with Ferroelectric Polymer Top-Gate Insulators.Intrinsic high water/ion selectivity of graphene oxide lamellar membranes in concentration gradient-driven diffusion.Photo-Promoted Platinum Nanoparticles Decorated MoS2@Graphene Woven Fabric Catalyst for Efficient Hydrogen Generation.Hybrid thin films of graphene nanowhiskers and amorphous carbon as transparent conductors.Adsorption of methylene blue from aqueous solution by graphene.Highly deformation-tolerant carbon nanotube sponges as supercapacitor electrodes.Colloidal antireflection coating improves graphene-silicon solar cells.Flexible all solid-state supercapacitors based on chemical vapor deposition derived graphene fibers.High-yield bamboo-shaped carbon nanotubes from cresol for electrochemical application.Anthocyanin-sensitized solar cells using carbon nanotube films as counter electrodes.Scalable Low-Band-Gap Sb2Se3 Thin-Film Photocathodes for Efficient Visible-Near-Infrared Solar Hydrogen Evolution.Cellulose-Templated Graphene Monoliths with Anisotropic Mechanical, Thermal, and Electrical Properties.Simultaneous High Sensitivity Sensing of Temperature and Humidity with Graphene Woven Fabrics.A Wearable and Highly Sensitive Graphene Strain Sensor for Precise Home-Based Pulse Wave Monitoring.Tactile Sensing System Based on Arrays of Graphene Woven Microfabrics: Electromechanical Behavior and Electronic Skin Application.Direct fabrication of single-walled carbon nanotube macro-films on flexible substrates.Hydrothermal synthesis and pseudocapacitance properties of MnO2 nanostructures.High rate reversibility anode materials of lithium batteries from vapor-grown carbon nanofibers.Reverse osmosis desalination of chitosan cross-linked graphene oxide/titania hybrid lamellar membranes.NO2-induced performance enhancement of PEDOT:PSS/Si hybrid solar cells with a high efficiency of 13.44.Recent Developments in Graphene-Based Membranes: Structure, Mass-Transport Mechanism and Potential Applications.Hybrid Tunnel Junction-Graphene Transparent Conductive Electrodes for Nitride Lateral Light Emitting Diodes.Carbon/Silicon Heterojunction Solar Cells: State of the Art and Prospects.Formation of Uniform Water Microdroplets on Wrinkled Graphene for Ultrafast Humidity Sensing.Highly twisted double-helix carbon nanotube yarns.Mechanotunable monatomic metal structures at graphene edges.Core-double-shell, carbon nanotube@polypyrrole@MnO₂ sponge as freestanding, compressible supercapacitor electrode.Hierarchically Mesostructured Aluminum Current Collector for Enhancing the Performance of Supercapacitors.Self-deposition of Pt nanoparticles on graphene woven fabrics for enhanced hybrid Schottky junctions and photoelectrochemical solar cells.Synthetic Multifunctional Graphene Composites with Reshaping and Self-Healing Features via a Facile Biomineralization-Inspired ProcessGraphene-On-Silicon Schottky Junction Solar Cells
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Q27302383-37DAFBE1-66BA-4333-9483-C30D48A469F2Q28596028-FC34066C-D8AE-4B2A-A888-314B1DD88C01Q34211549-5D3C7D30-DECD-441E-BFAF-8E507F8F1C8FQ34411410-B9852814-F54C-4D3C-9B74-A880166B56E6Q35270717-EBED48F2-F3E1-466E-B791-3944A1CE7C85Q35395123-4FFD58EC-E74C-421E-8556-68A54BC759F4Q35674765-1AF5480A-5E6D-4673-9796-2024296DDA54Q36403971-78CCFDCD-2A9A-4AC3-B6BB-1CAA3374EE04Q36419096-F90D3158-0246-45B2-8C52-6566EFBD9580Q36691219-E90D9E22-CFD6-48ED-A6F5-E9B212CA6676Q37707858-21ECFF93-C573-4572-BEC5-FFF62535C86DQ38882221-DDB44600-6F83-4DAE-956B-1C9BAE0C3A36Q43106434-83832BB6-5D2A-4B76-9072-FDBD9010FEFDQ43335684-F3F14FCC-0EF6-424B-BCAF-D064A4A81D08Q43768251-94F7F535-64EA-4F6C-8501-6C6D1E6FDEC6Q44228511-F1973965-C6FC-424E-A6D7-B6DDCE41C7B7Q45376714-276267A1-2D55-4AE5-A835-436AF2A986C4Q46553840-6C020031-AE5A-4C34-90C5-01BA6061D4E7Q47232086-3C5EDD54-1711-49F9-A77B-FDA326F849CAQ47323477-26013990-0326-498E-AF48-06101E068C9BQ47725729-42B760CD-4EA8-408E-8270-A7F803B620EAQ47773803-289A5B88-8D58-47C1-AD0C-14F1ACF11799Q47873204-84182029-E5CD-4EF7-90BB-3E5A362F2EF9Q50924131-83BB7B99-88F4-4BF8-9399-66FF49B267B0Q50954012-D1C8A8E3-9B89-4454-94AE-F80574282439Q51159634-56595898-6E56-42A2-849D-D31C4754EE3AQ51232059-0B88B6E5-D1D0-4F6B-8502-095A5555E33FQ51314977-C05AC54B-921F-4B20-B7B7-24D03BD18D0EQ51516021-F7F0B5F6-8994-4058-A3A1-4EEB5121A523Q51550772-6F81B891-0DF9-498C-91B6-681C4D4CD099Q51594562-2EFA7C5D-5A7B-4E77-AD2A-74F512F0E606Q51701803-E2A43C62-8C3F-45A9-8D43-4DE856BBBF1FQ51735364-78515012-FEDD-4502-B250-B50BF569F5BDQ53125873-2B0EE4CE-CE2F-4286-BD07-7A1207543686Q53593427-84927D0B-D64B-4D79-A2DE-96F21B950D06Q53600470-C8911D22-7234-49DA-A9C6-8985AD52B78EQ53690939-565E11E8-C1E3-42BE-B94A-D00C18F7502CQ53804596-ECE61A5D-A4BD-4376-9463-F6FD4A15F50BQ57213820-ABB93C44-CC19-423C-B6C4-B8F138F7C6DDQ57424738-40C93F45-C8C6-4726-8731-E21BF0E5867E
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Hongwei Zhu
@ast
Hongwei Zhu
@en
Hongwei Zhu
@es
Hongwei Zhu
@nl
Hongwei Zhu
@sl
type
label
Hongwei Zhu
@ast
Hongwei Zhu
@en
Hongwei Zhu
@es
Hongwei Zhu
@nl
Hongwei Zhu
@sl
prefLabel
Hongwei Zhu
@ast
Hongwei Zhu
@en
Hongwei Zhu
@es
Hongwei Zhu
@nl
Hongwei Zhu
@sl
P244
P1053
B-5240-2009
C-4655-2008
P106
P214
3602148451578315970005
P244
no2016172178
P31
P3829
P496
0000-0001-6484-3371
P734
P7859
lccn-no2016172178