Leader
|
|
|
00000nz a2200037n 45 0 |
001
|
|
|
WKP|Q16204920
(VIAF cluster)
(Authority/Source Record)
|
003
|
|
|
WKP |
005
|
|
|
20241121000139.0 |
008
|
|
|
241121nneanz||abbn n and d |
035
|
|
|
‡a
(WKP)Q16204920
|
024
|
|
|
‡a
0000-0001-9659-9721
‡2
orcid
|
024
|
|
|
‡a
35498810300
‡2
scopus
|
035
|
|
|
‡a
(OCoLC)Q16204920
|
046
|
|
|
‡f
19730122
|
100
|
0 |
|
‡a
Jonathan Coleman
‡c
Irish professor of chemical physics
‡9
en
|
375
|
|
|
‡a
1
‡2
iso5218
|
400
|
0 |
|
‡a
Джонатан Коулмэн
‡9
ru
|
400
|
0 |
|
‡a
Jonathan Coleman
‡c
natuurkundige
‡9
nl
|
400
|
0 |
|
‡a
Jonathan Coleman
‡c
hulumtues
‡9
sq
|
400
|
0 |
|
‡a
Jonathan Coleman
‡c
ricercatore
‡9
it
|
400
|
0 |
|
‡a
Jonathan Coleman
‡c
fisiceoir Éireannach
‡9
ga
|
400
|
0 |
|
‡a
Jonathan N Coleman
‡9
sl
|
670
|
|
|
‡a
Author's 2D-Crystal-Based Functional Inks
|
670
|
|
|
‡a
Author's A Commercial Conducting Polymer as Both Binder and Conductive Additive for Silicon Nanoparticle-Based Lithium-Ion Battery Negative Electrodes
|
670
|
|
|
‡a
Author's A comparison of catabolic pathways induced in primary macrophages by pristine single walled carbon nanotubes and pristine graphene
|
670
|
|
|
‡a
Author's A Generic Organometallic Approach toward Ultra-Strong Carbon Nanotube Polymer Composites
|
670
|
|
|
‡a
Author's Additive-free MXene inks and direct printing of micro-supercapacitors
|
670
|
|
|
‡a
Author's All-printed thin-film transistors from networks of liquid-exfoliated nanosheets
|
670
|
|
|
‡a
Author's An investigation of the energy storage properties of a 2D α-MoO3-SWCNTs composite films
|
670
|
|
|
‡a
Author's Approaching the theoretical limit for reinforcing polymers with graphene
|
670
|
|
|
‡a
Author's Are there fundamental limitations on the sheet resistance and transmittance of thin graphene films?
|
670
|
|
|
‡a
Author's Autophagy induction by silver nanowires: a new aspect in the biocompatibility assessment of nanocomposite thin films
|
670
|
|
|
‡a
Author's Avoiding Resistance Limitations in High-Performance Transparent Supercapacitor Electrodes Based on Large-Area, High-Conductivity PEDOT:PSS Films
|
670
|
|
|
‡a
Author's Basal-Plane Functionalization of Chemically Exfoliated Molybdenum Disulfide by Diazonium Salts
|
670
|
|
|
‡a
Author's Biological recognition of graphene nanoflakes.
|
670
|
|
|
‡a
Author's Boron nitride nanosheets as barrier enhancing fillers in melt processed composites
|
670
|
|
|
‡a
Author's Broadband ultrafast nonlinear absorption and nonlinear refraction of layered molybdenum dichalcogenide semiconductors
|
670
|
|
|
‡a
Author's Carbon-Nanotube-Polymer Nanocomposites for Field-Emission Cathodes
|
670
|
|
|
‡a
Author's Carbon nanotubes-bridged molybdenum trioxide nanosheets as high performance anode for lithium ion batteries
|
670
|
|
|
‡a
Author's Charge trapping and coalescence dynamics in few layer MoS2
|
670
|
|
|
‡a
Author's Cobalt hydroxide nanoflakes and their application as supercapacitors and oxygen evolution catalysts.
|
670
|
|
|
‡a
Author's Comparison of liquid exfoliated transition metal dichalcogenides reveals MoSe2to be the most effective hydrogen evolution catalyst
|
670
|
|
|
‡a
Author's Corrigendum: Materials science of graphene: a flagship perspective
|
670
|
|
|
‡a
Author's Corrigendum: Materials science of graphene: a flagship perspective (2D Mater.3010401)
|
670
|
|
|
‡a
Author's Covalently Functionalized Hexagonal Boron Nitride Nanosheets by Nitrene Addition
|
670
|
|
|
‡a
Author's Debundling of Single-Walled Nanotubes by Dilution: Observation of Large Populations of Individual Nanotubes in Amide Solvent Dispersions
|
670
|
|
|
‡a
Author's Distributed response analysis of conductive behavior in single molecules.
|
670
|
|
|
‡a
Author's DMF-exfoliated graphene for electrochemical NADH detection
|
670
|
|
|
‡a
Author's Edge and confinement effects allow in situ measurement of size and thickness of liquid-exfoliated nanosheets
|
670
|
|
|
‡a
Author's Effect of Percolation on the Capacitance of Supercapacitor Electrodes Prepared from Composites of Manganese Dioxide Nanoplatelets and Carbon Nanotubes
|
670
|
|
|
‡a
Author's Efficient dispersion and exfoliation of single-walled nanotubes in 3-aminopropyltriethoxysilane and its derivatives
|
670
|
|
|
‡a
Author's Electrical Characteristics of Molybdenum Disulfide Flakes Produced by Liquid Exfoliation
|
670
|
|
|
‡a
Author's Electrical Connectivity in Single-Walled Carbon Nanotube Networks
|
670
|
|
|
‡a
Author's Electrical, Mechanical, and Capacity Percolation Leads to High-Performance MoS2/Nanotube Composite Lithium Ion Battery Electrodes.
|
670
|
|
|
‡a
Author's Electrifying inks with 2D materials.
|
670
|
|
|
‡a
Author's Electrochemical water oxidation: The next five years
|
670
|
|
|
‡a
Author's Electronic Polarizability as the Fundamental Variable in the Dielectric Properties of Two-Dimensional Materials
|
670
|
|
|
‡a
Author's Electronics and optoelectronics of two-dimensional transition metal dichalcogenides
|
670
|
|
|
‡a
Author's Enabling Flexible Heterostructures for Li-Ion Battery Anodes Based on Nanotube and Liquid-Phase Exfoliated 2D Gallium Chalcogenide Nanosheet Colloidal Solutions.
|
670
|
|
|
‡a
Author's Enhanced adsorption affinity of anionic perylene-based surfactants towards smaller-diameter SWCNTs
|
670
|
|
|
‡a
Author's Enhancing the mechanical properties of BN nanosheet-polymer composites by uniaxial drawing.
|
670
|
|
|
‡a
Author's Equipartition of Energy Defines the Size-Thickness Relationship in Liquid-Exfoliated Nanosheets
|
670
|
|
|
‡a
Author's Evolution and evaluation of the polymer/nanotube composite
|
670
|
|
|
‡a
Author's Exfoliation in ecstasy: liquid crystal formation and concentration-dependent debundling observed for single-wall nanotubes dispersed in the liquid drug γ-butyrolactone
|
670
|
|
|
‡a
Author's Exfoliation of 2D materials by high shear mixing
|
670
|
|
|
‡a
Author's Experimental and Theoretical Study of the Influence of the State of Dispersion of Graphene on the Percolation Threshold of Conductive Graphene/Polystyrene Nanocomposites
|
670
|
|
|
‡a
Author's Exploring the versatility of liquid phase exfoliation: producing 2D nanosheets from talcum powder, cat litter and beach sand
|
670
|
|
|
‡a
Author's Flexible, transparent, conducting films of randomly stacked graphene from surfactant-stabilized, oxide-free graphene dispersions
|
670
|
|
|
‡a
Author's Functionalization of liquid-exfoliated two-dimensional 2H-MoS2.
|
670
|
|
|
‡a
Author's Graphene-coated polymer foams as tuneable impact sensors
|
670
|
|
|
‡a
Author's Graphene Dispersion and Exfoliation in Low Boiling Point Solvents
|
670
|
|
|
‡a
Author's Graphene-MoS2nanosheet composites as electrodes for dye sensitised solar cells
|
670
|
|
|
‡a
Author's Graphene oxide and graphene nanosheet reinforced aluminium matrix composites: Powder synthesis and prepared composite characteristics
|
670
|
|
|
‡a
Author's Helium ion microscopy of graphene: beam damage, image quality and edge contrast.
|
670
|
|
|
‡a
Author's High capacity silicon anodes enabled by MXene viscous aqueous ink
|
670
|
|
|
‡a
Author's High-Concentration Solvent Exfoliation of Graphene
|
670
|
|
|
‡a
Author's High-concentration, surfactant-stabilized graphene dispersions
|
670
|
|
|
‡a
Author's High Performance Na-O2 Batteries and Printed Microsupercapacitors Based on Water-Processable, Biomolecule-Assisted Anodic Graphene
|
670
|
|
|
‡a
Author's High-Performance Transparent Conductors from Networks of Gold Nanowires
|
670
|
|
|
‡a
Author's High Quality Dispersions of Hexabenzocoronene in Organic Solvents
|
670
|
|
|
‡a
Author's High-Strength, High-Toughness Composite Fibers by Swelling Kevlar in Nanotube Suspensions
|
670
|
|
|
‡a
Author's High-yield production of graphene by liquid-phase exfoliation of graphite
|
670
|
|
|
‡a
Author's Highly Conductive Graphene and Polyelectrolyte Multilayer Thin Films Produced From Aqueous Suspension
|
670
|
|
|
‡a
Author's Hydrogen evolution across nano-Schottky junctions at carbon supported MoS2 catalysts in biphasic liquid systems
|
670
|
|
|
‡a
Author's Improved adhesive strength and toughness of polyvinyl acetate glue on addition of small quantities of graphene
|
670
|
|
|
‡a
Author's Improvement of Transparent Conducting Nanotube Films by Addition of Small Quantities of Graphene
|
670
|
|
|
‡a
Author's Industrial grade 2D molybdenum disulphide (MoS2): an in vitro exploration of the impact on cellular uptake, cytotoxicity, and inflammation
|
670
|
|
|
‡a
Author's Inkjet printing of silver nanowire networks.
|
670
|
|
|
‡a
Author's Large-Scale Exfoliation of Inorganic Layered Compounds in Aqueous Surfactant Solutions
|
670
|
|
|
‡a
Author's Large variations in both dark- and photoconductivity in nanosheet networks as nanomaterial is varied from MoS2 to WTe2.
|
670
|
|
|
‡a
Author's Light scattering and random lasing in aqueous suspensions of hexagonal boron nitride nanoflakes
|
670
|
|
|
‡a
Author's Liquid exfoliation of defect-free graphene
|
670
|
|
|
‡a
Author's Liquid exfoliation of solvent-stabilized few-layer black phosphorus for applications beyond electronics
|
670
|
|
|
‡a
Author's Liquid Phase Exfoliated MoS2 Nanosheets Percolated with Carbon Nanotubes for High Volumetric/Areal Capacity Sodium-Ion Batteries
|
670
|
|
|
‡a
Author's Liquid phase exfoliation of carbonate-intercalated layered double hydroxides
|
670
|
|
|
‡a
Author's Liquid Phase Production of Graphene by Exfoliation of Graphite in Surfactant/Water Solutions
|
670
|
|
|
‡a
Author's Long-chain amine-templated synthesis of gallium sulfide and gallium selenide nanotubes.
|
670
|
|
|
‡a
Author's Manipulating connectivity and electrical conductivity in metallic nanowire networks.
|
670
|
|
|
‡a
Author's Mapping of Low-Frequency Raman Modes in CVD-Grown Transition Metal Dichalcogenides: Layer Number, Stacking Orientation and Resonant Effects
|
670
|
|
|
‡a
Author's Materials science of graphene: a flagship perspective
|
670
|
|
|
‡a
Author's Measurement of Multicomponent Solubility Parameters for Graphene Facilitates Solvent Discovery
|
670
|
|
|
‡a
Author's Measuring the lateral size of liquid-exfoliated nanosheets with dynamic light scattering.
|
670
|
|
|
‡a
Author's Mo6S4.5I4.5 Nanowires: Structure Studies by HRTEM and Aberration Corrected STEM
|
670
|
|
|
‡a
Author's Multicomponent Solubility Parameters for Single-Walled Carbon Nanotube−Solvent Mixtures
|
670
|
|
|
‡a
Author's Nanopatterning and Electrical Tuning of MoS2 Layers with a Subnanometer Helium Ion Beam
|
670
|
|
|
‡a
Author's Nanotube surfactant design: the versatility of water-soluble perylene bisimides
|
670
|
|
|
‡a
Author's Negative Gauge Factor Piezoresistive Composites Based on Polymers Filled with MoS2 Nanosheets
|
670
|
|
|
‡a
Author's Non-resonant light scattering in dispersions of 2D nanosheets
|
670
|
|
|
‡a
Author's On the factors controlling the mechanical properties of nanotube films
|
670
|
|
|
‡a
Author's Optimising composite viscosity leads to high sensitivity electromechancial sensors
|
670
|
|
|
‡a
Author's Ordered DNA Wrapping Switches on Luminescence in Single-Walled Nanotube Dispersions
|
670
|
|
|
‡a
Author's Oxygen Radical Functionalization of Boron Nitride Nanosheets
|
670
|
|
|
‡a
Author's Percolation Effects in Electrolytically Gated WS2/Graphene Nano:Nano Composites
|
670
|
|
|
‡a
Author's Percolation Effects in Supercapacitors with Thin, Transparent Carbon Nanotube Electrodes
|
670
|
|
|
‡a
Author's Percolation scaling in composites of exfoliated MoS2 filled with nanotubes and graphene
|
670
|
|
|
‡a
Author's Polymer Grafting to Single-Walled Carbon Nanotubes: Effect of Chain Length on Solubility, Graft Density and Mechanical Properties of Macroscopic Structures
|
670
|
|
|
‡a
Author's Polymer reinforcement using liquid-exfoliated boron nitride nanosheets
|
670
|
|
|
‡a
Author's Preparation of Buckypaper-Copper Composites and Investigation of their Conductivity and Mechanical Properties
|
670
|
|
|
‡a
Author's Preparation of High Concentration Dispersions of Exfoliated MoS2 with Increased Flake Size
|
670
|
|
|
‡a
Author's Preparation of Liquid-exfoliated Transition Metal Dichalcogenide Nanosheets with Controlled Size and Thickness: A State of the Art Protocol
|
670
|
|
|
‡a
Author's Production of Highly Monolayer Enriched Dispersions of Liquid-Exfoliated Nanosheets by Liquid Cascade Centrifugation.
|
670
|
|
|
‡a
Author's Production of Two-Dimensional Nanomaterials via Liquid-Based Direct Exfoliation
|
670
|
|
|
‡a
Author's Quantifying the factors limiting rate performance in battery electrodes
|
670
|
|
|
‡a
Author's Quantifying the Role of Nanotubes in Nano:Nano Composite Supercapacitor Electrodes
|
670
|
|
|
‡a
Author's Relationship between material properties and transparent heater performance for both bulk-like and percolative nanostructured networks
|
670
|
|
|
‡a
Author's Revealing the nature of excitons in liquid exfoliated monolayer tungsten disulphide.
|
670
|
|
|
‡a
Author's RuII Photosensitizer-Functionalized Two-Dimensional MoS2 for Light-Driven Hydrogen Evolution
|
670
|
|
|
‡a
Author's Scalable production of large quantities of defect-free few-layer graphene by shear exfoliation in liquids
|
670
|
|
|
‡a
Author's Science and technology roadmap for graphene, related two-dimensional crystals, and hybrid systems
|
670
|
|
|
‡a
Author's Sensitive electromechanical sensors using viscoelastic graphene-polymer nanocomposites.
|
670
|
|
|
‡a
Author's Sensitive, high-strain, high-rate bodily motion sensors based on graphene-rubber composites.
|
670
|
|
|
‡a
Author's Silver Nanowire Networks as Flexible, Transparent, Conducting Films: Extremely High DC to Optical Conductivity Ratios
|
670
|
|
|
‡a
Author's Size effects and the problem with percolation in nanostructured transparent conductors
|
670
|
|
|
‡a
Author's Slow and fast absorption saturation of black phosphorus: experiment and modelling
|
670
|
|
|
‡a
Author's Small but strong: A review of the mechanical properties of carbon nanotube–polymer composites
|
670
|
|
|
‡a
Author's Solubility of Mo6S4.5I4.5 nanowires in common solvents: a sedimentation study.
|
670
|
|
|
‡a
Author's Solvent-Exfoliated Graphene at Extremely High Concentration
|
670
|
|
|
‡a
Author's Solvent Exfoliation of Transition Metal Dichalcogenides: Dispersibility of Exfoliated Nanosheets Varies Only Weakly between Compounds
|
670
|
|
|
‡a
Author's Solvent exfoliation stabilizes TiS2 nanosheets against oxidation, facilitating lithium storage applications
|
670
|
|
|
‡a
Author's Spectroscopic investigation of conjugated polymer/single-walled carbon nanotube interactions
|
670
|
|
|
‡a
Author's Spectroscopic metrics allow in situ measurement of mean size and thickness of liquid-exfoliated few-layer graphene nanosheets
|
670
|
|
|
‡a
Author's Spontaneous Exfoliation of Single-Walled Carbon Nanotubes Dispersed Using a Designed Amphiphilic Peptide
|
670
|
|
|
‡a
Author's Spray Deposition of Highly Transparent, Low-Resistance Networks of Silver Nanowires over Large Areas
|
670
|
|
|
‡a
Author's Strong Dependence of Mechanical Properties on Fiber Diameter for Polymer−Nanotube Composite Fibers: Differentiating Defect from Orientation Effects
|
670
|
|
|
‡a
Author's Sub-5 nm graphene nanopore fabrication by nitrogen ion etching induced by a low-energy electron beam
|
670
|
|
|
‡a
Author's Super-tough carbon-nanotube fibres
|
670
|
|
|
‡a
Author's Surface coatings of silver nanowires lead to effective, high conductivity, high-strain, ultrathin sensors
|
670
|
|
|
‡a
Author's The dependence of the measured surface energy of graphene on nanosheet size
|
670
|
|
|
‡a
Author's The dependence of the optoelectrical properties of silver nanowire networks on nanowire length and diameter
|
670
|
|
|
‡a
Author's The importance of repulsive potential barriers for the dispersion of graphene using surfactants
|
670
|
|
|
‡a
Author's The Rate Performance of Two-Dimensional Material-Based Battery Electrodes May Not Be as Good as Commonly Believed
|
670
|
|
|
‡a
Author's Thickness Dependence and Percolation Scaling of Hydrogen Production Rate in MoS2 Nanosheet and Nanosheet-Carbon Nanotube Composite Catalytic Electrodes.
|
670
|
|
|
‡a
Author's Toughening of artificial silk by incorporation of carbon nanotubes
|
670
|
|
|
‡a
Author's Towards tough, yet stiff, composites by filling an elastomer with single-walled nanotubes at very high loading levels
|
670
|
|
|
‡a
Author's Transition metal dichalcogenide growth via close proximity precursor supply
|
670
|
|
|
‡a
Author's Transparent conducting films from NbSe3nanowires
|
670
|
|
|
‡a
Author's Transparent, Flexible, and Conductive 2D Titanium Carbide (MXene) Films with High Volumetric Capacitance
|
670
|
|
|
‡a
Author's Transparent, Flexible, and Highly Conductive Thin Films Based on Polymer−Nanotube Composites
|
670
|
|
|
‡a
Author's Transport and field emission in carbon nanotube - polymer composite cathodes
|
670
|
|
|
‡a
Author's Tuneable photoconductivity and mobility enhancement in printed MoS2/graphene composites
|
670
|
|
|
‡a
Author's Tuning the Mechanical Properties of Composites from Elastomeric to Rigid Thermoplastic by Controlled Addition of Carbon Nanotubes
|
670
|
|
|
‡a
Author's Turbulence-assisted shear exfoliation of graphene using household detergent and a kitchen blender
|
670
|
|
|
‡a
Author's Two-dimensional nanosheets produced by liquid exfoliation of layered materials
|
670
|
|
|
‡a
Author's Ultrafast Nonlinear Excitation Dynamics of Black Phosphorus Nanosheets from Visible to Mid-Infrared.
|
670
|
|
|
‡a
Author's Ultrafast saturable absorption of two-dimensional MoS2 nanosheets
|
670
|
|
|
‡a
Author's Understanding the Dispersion and Assembly of Bacterial Cellulose in Organic Solvents
|
670
|
|
|
‡a
Author's Using solution thermodynamics to describe the dispersion of rod-like solutes: application to dispersions of carbon nanotubes in organic solvents
|
670
|
|
|
‡a
Author's White Graphene undergoes Peroxidase Degradation.
|
670
|
|
|
‡a
Author's Yielding and flow of highly concentrated, few-layer graphene suspensions
|
670
|
|
|
‡a
wikidata authority control
‡u
https://viaf.org/processed/DNB|1167533836
|
670
|
|
|
‡a
wikidata authority control
‡u
https://viaf.org/viaf/50153773405661431206
|
670
|
|
|
‡a
wikidata site links
‡u
https://en.wikipedia.org/wiki/Jonathan_Coleman_(physicist)
|
909
|
|
|
‡a
(orcid) 0000000196599721
‡9
1
|
909
|
|
|
‡a
(scopus) 35498810300
‡9
1
|
919
|
|
|
‡a
yieldingandflowofhighlyconcentratedfewlayergraphenesuspensions
‡A
Yielding and flow of highly concentrated, few-layer graphene suspensions
‡9
1
|
919
|
|
|
‡a
ultrafastsaturableabsorptionof2dimensionalmos2nanosheets
‡A
Ultrafast saturable absorption of two-dimensional MoS2 nanosheets
‡9
1
|
919
|
|
|
‡a
transparentflexibleandconductive2dtitaniumcarbidemxenefilmswithhighvolumetriccapacitance
‡A
Transparent, Flexible, and Conductive 2D Titanium Carbide (MXene) Films with High Volumetric Capacitance
‡9
1
|
919
|
|
|
‡a
tougheningofartificialsilkbyincorporationofcarbonnanotubes
‡A
Toughening of artificial silk by incorporation of carbon nanotubes
‡9
1
|
919
|
|
|
‡a
dependenceoftheoptoelectricalpropertiesofsilvernanowirenetworksonnanowirelengthanddiameter
‡A
The dependence of the optoelectrical properties of silver nanowire networks on nanowire length and diameter
‡9
1
|
919
|
|
|
‡a
spectroscopicmetricsallowinsitumeasurementofmeansizeandthicknessofliquidexfoliatedfewlayergraphenenanosheets
‡A
Spectroscopic metrics allow in situ measurement of mean size and thickness of liquid-exfoliated few-layer graphene nanosheets
‡9
1
|
919
|
|
|
‡a
solventexfoliatedgrapheneatextremelyhighconcentration
‡A
Solvent-Exfoliated Graphene at Extremely High Concentration
‡9
1
|
919
|
|
|
‡a
relationshipbetweenmaterialpropertiesandtransparentheaterperformanceforbothbulklikeandpercolativenanostructurednetworks
‡A
Relationship between material properties and transparent heater performance for both bulk-like and percolative nanostructured networks
‡9
1
|
919
|
|
|
‡a
productionofhighlymonolayerenricheddispersionsofliquidexfoliatednanosheetsbyliquidcascadecentrifugation
‡A
Production of Highly Monolayer Enriched Dispersions of Liquid-Exfoliated Nanosheets by Liquid Cascade Centrifugation.
‡9
1
|
919
|
|
|
‡a
polymerreinforcementusingliquidexfoliatedboronnitridenanosheets
‡A
Polymer reinforcement using liquid-exfoliated boron nitride nanosheets
‡9
1
|
919
|
|
|
‡a
onthefactorscontrollingthemechanicalpropertiesofnanotubefilms
‡A
On the factors controlling the mechanical properties of nanotube films
‡9
1
|
919
|
|
|
‡a
nanopatterningandelectricaltuningofmos2layerswithasubnanometerheliumionbeam
‡A
Nanopatterning and Electrical Tuning of MoS2 Layers with a Subnanometer Helium Ion Beam
‡9
1
|
919
|
|
|
‡a
measurementofmulticomponentsolubilityparametersforgraphenefacilitatessolventdiscovery
‡A
Measurement of Multicomponent Solubility Parameters for Graphene Facilitates Solvent Discovery
‡9
1
|
919
|
|
|
‡a
liquidexfoliationofsolventstabilizedfewlayerblackphosphorusforapplicationsbeyondelectronics
‡A
Liquid exfoliation of solvent-stabilized few-layer black phosphorus for applications beyond electronics
‡9
1
|
919
|
|
|
‡a
largescaleexfoliationofinorganiclayeredcompoundsinaqueoussurfactantsolutions
‡A
Large-Scale Exfoliation of Inorganic Layered Compounds in Aqueous Surfactant Solutions
‡9
1
|
919
|
|
|
‡a
improvedadhesivestrengthandtoughnessofpolyvinylacetateglueonadditionofsmallquantitiesofgraphene
‡A
Improved adhesive strength and toughness of polyvinyl acetate glue on addition of small quantities of graphene
‡9
1
|
919
|
|
|
‡a
highconcentrationsurfactantstabilizedgraphenedispersions
‡A
High-concentration, surfactant-stabilized graphene dispersions
‡9
1
|
919
|
|
|
‡a
grapheneoxideandgraphenenanosheetreinforcedaluminiummatrixcompositespowdersynthesisandpreparedcompositecharacteristics
‡A
Graphene oxide and graphene nanosheet reinforced aluminium matrix composites: Powder synthesis and prepared composite characteristics
‡9
1
|
919
|
|
|
‡a
sizeeffectsandtheproblemwithpercolationinnanostructuredtransparentconductors
‡A
Size effects and the problem with percolation in nanostructured transparent conductors
‡9
1
|
919
|
|
|
‡a
enhancingthemechanicalpropertiesofbnnanosheetpolymercompositesbyuniaxialdrawing
‡A
Enhancing the mechanical properties of BN nanosheet-polymer composites by uniaxial drawing.
‡9
1
|
919
|
|
|
‡a
electronicpolarizabilityasthefundamentalvariableinthedielectricpropertiesof2dimensionalmaterials
‡A
Electronic Polarizability as the Fundamental Variable in the Dielectric Properties of Two-Dimensional Materials
‡9
1
|
919
|
|
|
‡a
electricalconnectivityinsinglewalledcarbonnanotubenetworks
‡A
Electrical Connectivity in Single-Walled Carbon Nanotube Networks
‡9
1
|
919
|
|
|
‡a
covalentlyfunctionalizedhexagonalboronnitridenanosheetsbynitreneaddition
‡A
Covalently Functionalized Hexagonal Boron Nitride Nanosheets by Nitrene Addition
‡9
1
|
919
|
|
|
‡a
cobalthydroxidenanoflakesandtheirapplicationassupercapacitorsandoxygenevolutioncatalysts
‡A
Cobalt hydroxide nanoflakes and their application as supercapacitors and oxygen evolution catalysts.
‡9
1
|
919
|
|
|
‡a
broadbandultrafastnonlinearabsorptionandnonlinearrefractionoflayeredmolybdenumdichalcogenidesemiconductors
‡A
Broadband ultrafast nonlinear absorption and nonlinear refraction of layered molybdenum dichalcogenide semiconductors
‡9
1
|
919
|
|
|
‡a
investigationoftheenergystoragepropertiesofa2dαmoo3swcntscompositefilms
‡A
An investigation of the energy storage properties of a 2D α-MoO3-SWCNTs composite films
‡9
1
|
919
|
|
|
‡a
comparisonofcatabolicpathwaysinducedinprimarymacrophagesbypristinesinglewalledcarbonnanotubesandpristinegraphene
‡A
A comparison of catabolic pathways induced in primary macrophages by pristine single walled carbon nanotubes and pristine graphene
‡9
1
|
919
|
|
|
‡a
functionalizationofliquidexfoliated2dimensional2hmos2
‡A
Functionalization of liquid-exfoliated two-dimensional 2H-MoS2.
‡9
1
|
919
|
|
|
‡a
2dcrystalbasedfunctionalinks
‡A
2D-Crystal-Based Functional Inks
‡9
1
|
919
|
|
|
‡a
commercialconductingpolymerasbothbinderandconductiveadditiveforsiliconnanoparticlebasedlithiumionbatterynegativeelectrodes
‡A
A Commercial Conducting Polymer as Both Binder and Conductive Additive for Silicon Nanoparticle-Based Lithium-Ion Battery Negative Electrodes
‡9
1
|
919
|
|
|
‡a
genericorganometallicapproachtowardultrastrongcarbonnanotubepolymercomposites
‡A
A Generic Organometallic Approach toward Ultra-Strong Carbon Nanotube Polymer Composites
‡9
1
|
919
|
|
|
‡a
additivefreemxeneinksanddirectprintingofmicrosupercapacitors
‡A
Additive-free MXene inks and direct printing of micro-supercapacitors
‡9
1
|
919
|
|
|
‡a
allprintedthinfilmtransistorsfromnetworksofliquidexfoliatednanosheets
‡A
All-printed thin-film transistors from networks of liquid-exfoliated nanosheets
‡9
1
|
919
|
|
|
‡a
approachingthetheoreticallimitforreinforcingpolymerswithgraphene
‡A
Approaching the theoretical limit for reinforcing polymers with graphene
‡9
1
|
919
|
|
|
‡a
aretherefundamentallimitationsonthesheetresistanceandtransmittanceofthingraphenefilms
‡A
Are there fundamental limitations on the sheet resistance and transmittance of thin graphene films?
‡9
1
|
919
|
|
|
‡a
autophagyinductionbysilvernanowiresanewaspectinthebiocompatibilityassessmentofnanocompositethinfilms
‡A
Autophagy induction by silver nanowires: a new aspect in the biocompatibility assessment of nanocomposite thin films
‡9
1
|
919
|
|
|
‡a
avoidingresistancelimitationsinhighperformancetransparentsupercapacitorelectrodesbasedonlargeareahighconductivitypedotpssfilms
‡A
Avoiding Resistance Limitations in High-Performance Transparent Supercapacitor Electrodes Based on Large-Area, High-Conductivity PEDOT:PSS Films
‡9
1
|
919
|
|
|
‡a
basalplanefunctionalizationofchemicallyexfoliatedmolybdenumdisulfidebydiazoniumsalts
‡A
Basal-Plane Functionalization of Chemically Exfoliated Molybdenum Disulfide by Diazonium Salts
‡9
1
|
919
|
|
|
‡a
biologicalrecognitionofgraphenenanoflakes
‡A
Biological recognition of graphene nanoflakes.
‡9
1
|
919
|
|
|
‡a
boronnitridenanosheetsasbarrierenhancingfillersinmeltprocessedcomposites
‡A
Boron nitride nanosheets as barrier enhancing fillers in melt processed composites
‡9
1
|
919
|
|
|
‡a
carbonnanotubepolymernanocompositesforfieldemissioncathodes
‡A
Carbon-Nanotube-Polymer Nanocomposites for Field-Emission Cathodes
‡9
1
|
919
|
|
|
‡a
carbonnanotubesbridgedmolybdenumtrioxidenanosheetsashighperformanceanodeforlithiumionbatteries
‡A
Carbon nanotubes-bridged molybdenum trioxide nanosheets as high performance anode for lithium ion batteries
‡9
1
|
919
|
|
|
‡a
chargetrappingandcoalescencedynamicsinfewlayermos2
‡A
Charge trapping and coalescence dynamics in few layer MoS2
‡9
1
|
919
|
|
|
‡a
comparisonofliquidexfoliatedtransitionmetaldichalcogenidesrevealsmose2tobethemosteffectivehydrogenevolutioncatalyst
‡A
Comparison of liquid exfoliated transition metal dichalcogenides reveals MoSe2to be the most effective hydrogen evolution catalyst
‡9
1
|
919
|
|
|
‡a
corrigendummaterialsscienceofgrapheneaflagshipperspective
‡A
Corrigendum: Materials science of graphene: a flagship perspective
‡9
1
|
919
|
|
|
‡a
corrigendummaterialsscienceofgrapheneaflagshipperspective2dmater3010401
‡A
Corrigendum: Materials science of graphene: a flagship perspective (2D Mater.3010401)
‡9
1
|
919
|
|
|
‡a
debundlingofsinglewallednanotubesbydilutionobservationoflargepopulationsofindividualnanotubesinamidesolventdispersions
‡A
Debundling of Single-Walled Nanotubes by Dilution: Observation of Large Populations of Individual Nanotubes in Amide Solvent Dispersions
‡9
1
|
919
|
|
|
‡a
distributedresponseanalysisofconductivebehaviorinsinglemolecules
‡A
Distributed response analysis of conductive behavior in single molecules.
‡9
1
|
919
|
|
|
‡a
dmfexfoliatedgrapheneforelectrochemicalnadhdetection
‡A
DMF-exfoliated graphene for electrochemical NADH detection
‡9
1
|
919
|
|
|
‡a
edgeandconfinementeffectsallowinsitumeasurementofsizeandthicknessofliquidexfoliatednanosheets
‡A
Edge and confinement effects allow in situ measurement of size and thickness of liquid-exfoliated nanosheets
‡9
1
|
919
|
|
|
‡a
effectofpercolationonthecapacitanceofsupercapacitorelectrodespreparedfromcompositesofmanganesedioxidenanoplateletsandcarbonnanotubes
‡A
Effect of Percolation on the Capacitance of Supercapacitor Electrodes Prepared from Composites of Manganese Dioxide Nanoplatelets and Carbon Nanotubes
‡9
1
|
919
|
|
|
‡a
efficientdispersionandexfoliationofsinglewallednanotubesin3aminopropyltriethoxysilaneanditsderivatives
‡A
Efficient dispersion and exfoliation of single-walled nanotubes in 3-aminopropyltriethoxysilane and its derivatives
‡9
1
|
919
|
|
|
‡a
electricalcharacteristicsofmolybdenumdisulfideflakesproducedbyliquidexfoliation
‡A
Electrical Characteristics of Molybdenum Disulfide Flakes Produced by Liquid Exfoliation
‡9
1
|
919
|
|
|
‡a
electricalmechanicalandcapacitypercolationleadstohighperformancemos2nanotubecompositelithiumionbatteryelectrodes
‡A
Electrical, Mechanical, and Capacity Percolation Leads to High-Performance MoS2/Nanotube Composite Lithium Ion Battery Electrodes.
‡9
1
|
919
|
|
|
‡a
electrifyinginkswith2dmaterials
‡A
Electrifying inks with 2D materials.
‡9
1
|
919
|
|
|
‡a
electrochemicalwateroxidationthenext5years
‡A
Electrochemical water oxidation: The next five years
‡9
1
|
919
|
|
|
‡a
electronicsandoptoelectronicsof2dimensionaltransitionmetaldichalcogenides
‡A
Electronics and optoelectronics of two-dimensional transition metal dichalcogenides
‡9
1
|
919
|
|
|
‡a
enablingflexibleheterostructuresfor51ionbatteryanodesbasedonnanotubeandliquidphaseexfoliated2dgalliumchalcogenidenanosheetcolloidalsolutions
‡A
Enabling Flexible Heterostructures for Li-Ion Battery Anodes Based on Nanotube and Liquid-Phase Exfoliated 2D Gallium Chalcogenide Nanosheet Colloidal Solutions.
‡9
1
|
919
|
|
|
‡a
enhancedadsorptionaffinityofanionicperylenebasedsurfactantstowardssmallerdiameterswcnts
‡A
Enhanced adsorption affinity of anionic perylene-based surfactants towards smaller-diameter SWCNTs
‡9
1
|
919
|
|
|
‡a
equipartitionofenergydefinesthesizethicknessrelationshipinliquidexfoliatednanosheets
‡A
Equipartition of Energy Defines the Size-Thickness Relationship in Liquid-Exfoliated Nanosheets
‡9
1
|
919
|
|
|
‡a
evolutionandevaluationofthepolymernanotubecomposite
‡A
Evolution and evaluation of the polymer/nanotube composite
‡9
1
|
919
|
|
|
‡a
exfoliationinecstasyliquidcrystalformationandconcentrationdependentdebundlingobservedforsinglewallnanotubesdispersedintheliquiddrugγbutyrolactone
‡A
Exfoliation in ecstasy: liquid crystal formation and concentration-dependent debundling observed for single-wall nanotubes dispersed in the liquid drug γ-butyrolactone
‡9
1
|
919
|
|
|
‡a
exfoliationof2dmaterialsbyhighshearmixing
‡A
Exfoliation of 2D materials by high shear mixing
‡9
1
|
919
|
|
|
‡a
experimentalandtheoreticalstudyoftheinfluenceofthestateofdispersionofgrapheneonthepercolationthresholdofconductivegraphenepolystyrenenanocomposites
‡A
Experimental and Theoretical Study of the Influence of the State of Dispersion of Graphene on the Percolation Threshold of Conductive Graphene/Polystyrene Nanocomposites
‡9
1
|
919
|
|
|
‡a
exploringtheversatilityofliquidphaseexfoliationproducing2dnanosheetsfromtalcumpowdercatlitterandbeachsand
‡A
Exploring the versatility of liquid phase exfoliation: producing 2D nanosheets from talcum powder, cat litter and beach sand
‡9
1
|
919
|
|
|
‡a
flexibletransparentconductingfilmsofrandomlystackedgraphenefromsurfactantstabilizedoxidefreegraphenedispersions
‡A
Flexible, transparent, conducting films of randomly stacked graphene from surfactant-stabilized, oxide-free graphene dispersions
‡9
1
|
919
|
|
|
‡a
graphenecoatedpolymerfoamsastuneableimpactsensors
‡A
Graphene-coated polymer foams as tuneable impact sensors
‡9
1
|
919
|
|
|
‡a
graphenedispersionandexfoliationinlowboilingpointsolvents
‡A
Graphene Dispersion and Exfoliation in Low Boiling Point Solvents
‡9
1
|
919
|
|
|
‡a
graphenemos2nanosheetcompositesaselectrodesfordyesensitisedsolarcells
‡A
Graphene-MoS2nanosheet composites as electrodes for dye sensitised solar cells
‡9
1
|
919
|
|
|
‡a
heliumionmicroscopyofgraphenebeamdamageimagequalityandedgecontrast
‡A
Helium ion microscopy of graphene: beam damage, image quality and edge contrast.
‡9
1
|
919
|
|
|
‡a
highcapacitysiliconanodesenabledbymxeneviscousaqueousink
‡A
High capacity silicon anodes enabled by MXene viscous aqueous ink
‡9
1
|
919
|
|
|
‡a
highconcentrationsolventexfoliationofgraphene
‡A
High-Concentration Solvent Exfoliation of Graphene
‡9
1
|
919
|
|
|
‡a
highperformancenao2batteriesandprintedmicrosupercapacitorsbasedonwaterprocessablebiomoleculeassistedanodicgraphene
‡A
High Performance Na-O2 Batteries and Printed Microsupercapacitors Based on Water-Processable, Biomolecule-Assisted Anodic Graphene
‡9
1
|
919
|
|
|
‡a
highperformancetransparentconductorsfromnetworksofgoldnanowires
‡A
High-Performance Transparent Conductors from Networks of Gold Nanowires
‡9
1
|
919
|
|
|
‡a
highqualitydispersionsofhexabenzocoroneneinorganicsolvents
‡A
High Quality Dispersions of Hexabenzocoronene in Organic Solvents
‡9
1
|
919
|
|
|
‡a
highstrengthhightoughnesscompositefibersbyswellingkevlarinnanotubesuspensions
‡A
High-Strength, High-Toughness Composite Fibers by Swelling Kevlar in Nanotube Suspensions
‡9
1
|
919
|
|
|
‡a
highyieldproductionofgraphenebyliquidphaseexfoliationofgraphite
‡A
High-yield production of graphene by liquid-phase exfoliation of graphite
‡9
1
|
919
|
|
|
‡a
highlyconductivegrapheneandpolyelectrolytemultilayerthinfilmsproducedfromaqueoussuspension
‡A
Highly Conductive Graphene and Polyelectrolyte Multilayer Thin Films Produced From Aqueous Suspension
‡9
1
|
919
|
|
|
‡a
hydrogenevolutionacrossnanoschottkyjunctionsatcarbonsupportedmos2catalystsinbiphasicliquidsystems
‡A
Hydrogen evolution across nano-Schottky junctions at carbon supported MoS2 catalysts in biphasic liquid systems
‡9
1
|
919
|
|
|
‡a
improvementoftransparentconductingnanotubefilmsbyadditionofsmallquantitiesofgraphene
‡A
Improvement of Transparent Conducting Nanotube Films by Addition of Small Quantities of Graphene
‡9
1
|
919
|
|
|
‡a
industrialgrade2dmolybdenumdisulphidemos2aninvitroexplorationoftheimpactoncellularuptakecytotoxicityandinflammation
‡A
Industrial grade 2D molybdenum disulphide (MoS2): an in vitro exploration of the impact on cellular uptake, cytotoxicity, and inflammation
‡9
1
|
919
|
|
|
‡a
inkjetprintingofsilvernanowirenetworks
‡A
Inkjet printing of silver nanowire networks.
‡9
1
|
919
|
|
|
‡a
largevariationsinbothdarkandphotoconductivityinnanosheetnetworksasnanomaterialisvariedfrommos2towte2
‡A
Large variations in both dark- and photoconductivity in nanosheet networks as nanomaterial is varied from MoS2 to WTe2.
‡9
1
|
919
|
|
|
‡a
lightscatteringandrandomlasinginaqueoussuspensionsofhexagonalboronnitridenanoflakes
‡A
Light scattering and random lasing in aqueous suspensions of hexagonal boron nitride nanoflakes
‡9
1
|
919
|
|
|
‡a
liquidexfoliationofdefectfreegraphene
‡A
Liquid exfoliation of defect-free graphene
‡9
1
|
919
|
|
|
‡a
liquidphaseexfoliatedmos2nanosheetspercolatedwithcarbonnanotubesforhighvolumetricarealcapacitysodiumionbatteries
‡A
Liquid Phase Exfoliated MoS2 Nanosheets Percolated with Carbon Nanotubes for High Volumetric/Areal Capacity Sodium-Ion Batteries
‡9
1
|
919
|
|
|
‡a
liquidphaseexfoliationofcarbonateintercalatedlayereddoublehydroxides
‡A
Liquid phase exfoliation of carbonate-intercalated layered double hydroxides
‡9
1
|
919
|
|
|
‡a
liquidphaseproductionofgraphenebyexfoliationofgraphiteinsurfactantwatersolutions
‡A
Liquid Phase Production of Graphene by Exfoliation of Graphite in Surfactant/Water Solutions
‡9
1
|
919
|
|
|
‡a
longchainaminetemplatedsynthesisofgalliumsulfideandgalliumselenidenanotubes
‡A
Long-chain amine-templated synthesis of gallium sulfide and gallium selenide nanotubes.
‡9
1
|
919
|
|
|
‡a
manipulatingconnectivityandelectricalconductivityinmetallicnanowirenetworks
‡A
Manipulating connectivity and electrical conductivity in metallic nanowire networks.
‡9
1
|
919
|
|
|
‡a
mappingoflowfrequencyramanmodesincvdgrowntransitionmetaldichalcogenideslayernumberstackingorientationandresonanteffects
‡A
Mapping of Low-Frequency Raman Modes in CVD-Grown Transition Metal Dichalcogenides: Layer Number, Stacking Orientation and Resonant Effects
‡9
1
|
919
|
|
|
‡a
materialsscienceofgrapheneaflagshipperspective
‡A
Materials science of graphene: a flagship perspective
‡9
1
|
919
|
|
|
‡a
measuringthelateralsizeofliquidexfoliatednanosheetswithdynamiclightscattering
‡A
Measuring the lateral size of liquid-exfoliated nanosheets with dynamic light scattering.
‡9
1
|
919
|
|
|
‡a
mo6s45i45nanowiresstructurestudiesbyhrtemandaberrationcorrectedstem
‡A
Mo6S4.5I4.5 Nanowires: Structure Studies by HRTEM and Aberration Corrected STEM
‡9
1
|
919
|
|
|
‡a
multicomponentsolubilityparametersforsinglewalledcarbonnanotubesolventmixtures
‡A
Multicomponent Solubility Parameters for Single-Walled Carbon Nanotube−Solvent Mixtures
‡9
1
|
919
|
|
|
‡a
nanotubesurfactantdesigntheversatilityofwatersolubleperylenebisimides
‡A
Nanotube surfactant design: the versatility of water-soluble perylene bisimides
‡9
1
|
919
|
|
|
‡a
negativegaugefactorpiezoresistivecompositesbasedonpolymersfilledwithmos2nanosheets
‡A
Negative Gauge Factor Piezoresistive Composites Based on Polymers Filled with MoS2 Nanosheets
‡9
1
|
919
|
|
|
‡a
nonresonantlightscatteringindispersionsof2dnanosheets
‡A
Non-resonant light scattering in dispersions of 2D nanosheets
‡9
1
|
919
|
|
|
‡a
optimisingcompositeviscosityleadstohighsensitivityelectromechancialsensors
‡A
Optimising composite viscosity leads to high sensitivity electromechancial sensors
‡9
1
|
919
|
|
|
‡a
ordereddnawrappingswitchesonluminescenceinsinglewallednanotubedispersions
‡A
Ordered DNA Wrapping Switches on Luminescence in Single-Walled Nanotube Dispersions
‡9
1
|
919
|
|
|
‡a
oxygenradicalfunctionalizationofboronnitridenanosheets
‡A
Oxygen Radical Functionalization of Boron Nitride Nanosheets
‡9
1
|
919
|
|
|
‡a
percolationeffectsinelectrolyticallygatedws2graphenenanonanocomposites
‡A
Percolation Effects in Electrolytically Gated WS2/Graphene Nano:Nano Composites
‡9
1
|
919
|
|
|
‡a
percolationeffectsinsupercapacitorswiththintransparentcarbonnanotubeelectrodes
‡A
Percolation Effects in Supercapacitors with Thin, Transparent Carbon Nanotube Electrodes
‡9
1
|
919
|
|
|
‡a
percolationscalingincompositesofexfoliatedmos2filledwithnanotubesandgraphene
‡A
Percolation scaling in composites of exfoliated MoS2 filled with nanotubes and graphene
‡9
1
|
919
|
|
|
‡a
polymergraftingtosinglewalledcarbonnanotubeseffectofchainlengthonsolubilitygraftdensityandmechanicalpropertiesofmacroscopicstructures
‡A
Polymer Grafting to Single-Walled Carbon Nanotubes: Effect of Chain Length on Solubility, Graft Density and Mechanical Properties of Macroscopic Structures
‡9
1
|
919
|
|
|
‡a
preparationofbuckypapercoppercompositesandinvestigationoftheirconductivityandmechanicalproperties
‡A
Preparation of Buckypaper-Copper Composites and Investigation of their Conductivity and Mechanical Properties
‡9
1
|
919
|
|
|
‡a
preparationofhighconcentrationdispersionsofexfoliatedmos2withincreasedflakesize
‡A
Preparation of High Concentration Dispersions of Exfoliated MoS2 with Increased Flake Size
‡9
1
|
919
|
|
|
‡a
preparationofliquidexfoliatedtransitionmetaldichalcogenidenanosheetswithcontrolledsizeandthicknessastateoftheartprotocol
‡A
Preparation of Liquid-exfoliated Transition Metal Dichalcogenide Nanosheets with Controlled Size and Thickness: A State of the Art Protocol
‡9
1
|
919
|
|
|
‡a
productionof2dimensionalnanomaterialsvialiquidbaseddirectexfoliation
‡A
Production of Two-Dimensional Nanomaterials via Liquid-Based Direct Exfoliation
‡9
1
|
919
|
|
|
‡a
quantifyingthefactorslimitingrateperformanceinbatteryelectrodes
‡A
Quantifying the factors limiting rate performance in battery electrodes
‡9
1
|
919
|
|
|
‡a
quantifyingtheroleofnanotubesinnanonanocompositesupercapacitorelectrodes
‡A
Quantifying the Role of Nanotubes in Nano:Nano Composite Supercapacitor Electrodes
‡9
1
|
919
|
|
|
‡a
revealingthenatureofexcitonsinliquidexfoliatedmonolayertungstendisulphide
‡A
Revealing the nature of excitons in liquid exfoliated monolayer tungsten disulphide.
‡9
1
|
919
|
|
|
‡a
ruiiphotosensitizerfunctionalized2dimensionalmos2forlightdrivenhydrogenevolution
‡A
RuII Photosensitizer-Functionalized Two-Dimensional MoS2 for Light-Driven Hydrogen Evolution
‡9
1
|
919
|
|
|
‡a
scalableproductionoflargequantitiesofdefectfreefewlayergraphenebyshearexfoliationinliquids
‡A
Scalable production of large quantities of defect-free few-layer graphene by shear exfoliation in liquids
‡9
1
|
919
|
|
|
‡a
scienceandtechnologyroadmapforgraphenerelated2dimensionalcrystalsandhybridsystems
‡A
Science and technology roadmap for graphene, related two-dimensional crystals, and hybrid systems
‡9
1
|
919
|
|
|
‡a
sensitiveelectromechanicalsensorsusingviscoelasticgraphenepolymernanocomposites
‡A
Sensitive electromechanical sensors using viscoelastic graphene-polymer nanocomposites.
‡9
1
|
919
|
|
|
‡a
sensitivehighstrainhighratebodilymotionsensorsbasedongraphenerubbercomposites
‡A
Sensitive, high-strain, high-rate bodily motion sensors based on graphene-rubber composites.
‡9
1
|
919
|
|
|
‡a
silvernanowirenetworksasflexibletransparentconductingfilmsextremelyhigh600toopticalconductivityratios
‡A
Silver Nanowire Networks as Flexible, Transparent, Conducting Films: Extremely High DC to Optical Conductivity Ratios
‡9
1
|
919
|
|
|
‡a
slowandfastabsorptionsaturationofblackphosphorusexperimentandmodelling
‡A
Slow and fast absorption saturation of black phosphorus: experiment and modelling
‡9
1
|
919
|
|
|
‡a
smallbutstrongareviewofthemechanicalpropertiesofcarbonnanotubepolymercomposites
‡A
Small but strong: A review of the mechanical properties of carbon nanotube–polymer composites
‡9
1
|
919
|
|
|
‡a
solubilityofmo6s45i45nanowiresincommonsolventsasedimentationstudy
‡A
Solubility of Mo6S4.5I4.5 nanowires in common solvents: a sedimentation study.
‡9
1
|
919
|
|
|
‡a
solventexfoliationoftransitionmetaldichalcogenidesdispersibilityofexfoliatednanosheetsvariesonlyweaklybetweencompounds
‡A
Solvent Exfoliation of Transition Metal Dichalcogenides: Dispersibility of Exfoliated Nanosheets Varies Only Weakly between Compounds
‡9
1
|
919
|
|
|
‡a
solventexfoliationstabilizestis2nanosheetsagainstoxidationfacilitatinglithiumstorageapplications
‡A
Solvent exfoliation stabilizes TiS2 nanosheets against oxidation, facilitating lithium storage applications
‡9
1
|
919
|
|
|
‡a
spectroscopicinvestigationofconjugatedpolymersinglewalledcarbonnanotubeinteractions
‡A
Spectroscopic investigation of conjugated polymer/single-walled carbon nanotube interactions
‡9
1
|
919
|
|
|
‡a
spontaneousexfoliationofsinglewalledcarbonnanotubesdispersedusingadesignedamphiphilicpeptide
‡A
Spontaneous Exfoliation of Single-Walled Carbon Nanotubes Dispersed Using a Designed Amphiphilic Peptide
‡9
1
|
919
|
|
|
‡a
spraydepositionofhighlytransparentlowresistancenetworksofsilvernanowiresoverlargeareas
‡A
Spray Deposition of Highly Transparent, Low-Resistance Networks of Silver Nanowires over Large Areas
‡9
1
|
919
|
|
|
‡a
strongdependenceofmechanicalpropertiesonfiberdiameterforpolymernanotubecompositefibersdifferentiatingdefectfromorientationeffects
‡A
Strong Dependence of Mechanical Properties on Fiber Diameter for Polymer−Nanotube Composite Fibers: Differentiating Defect from Orientation Effects
‡9
1
|
919
|
|
|
‡a
sub5nmgraphenenanoporefabricationbynitrogenionetchinginducedbyalowenergyelectronbeam
‡A
Sub-5 nm graphene nanopore fabrication by nitrogen ion etching induced by a low-energy electron beam
‡9
1
|
919
|
|
|
‡a
supertoughcarbonnanotubefibres
‡A
Super-tough carbon-nanotube fibres
‡9
1
|
919
|
|
|
‡a
surfacecoatingsofsilvernanowiresleadtoeffectivehighconductivityhighstrainultrathinsensors
‡A
Surface coatings of silver nanowires lead to effective, high conductivity, high-strain, ultrathin sensors
‡9
1
|
919
|
|
|
‡a
dependenceofthemeasuredsurfaceenergyofgrapheneonnanosheetsize
‡A
The dependence of the measured surface energy of graphene on nanosheet size
‡9
1
|
919
|
|
|
‡a
importanceofrepulsivepotentialbarriersforthedispersionofgrapheneusingsurfactants
‡A
The importance of repulsive potential barriers for the dispersion of graphene using surfactants
‡9
1
|
919
|
|
|
‡a
rateperformanceof2dimensionalmaterialbasedbatteryelectrodesmaynotbeasgoodascommonlybelieved
‡A
The Rate Performance of Two-Dimensional Material-Based Battery Electrodes May Not Be as Good as Commonly Believed
‡9
1
|
919
|
|
|
‡a
thicknessdependenceandpercolationscalingofhydrogenproductionrateinmos2nanosheetandnanosheetcarbonnanotubecompositecatalyticelectrodes
‡A
Thickness Dependence and Percolation Scaling of Hydrogen Production Rate in MoS2 Nanosheet and Nanosheet-Carbon Nanotube Composite Catalytic Electrodes.
‡9
1
|
919
|
|
|
‡a
towardstoughyetstiffcompositesbyfillinganelastomerwithsinglewallednanotubesatveryhighloadinglevels
‡A
Towards tough, yet stiff, composites by filling an elastomer with single-walled nanotubes at very high loading levels
‡9
1
|
919
|
|
|
‡a
transitionmetaldichalcogenidegrowthviacloseproximityprecursorsupply
‡A
Transition metal dichalcogenide growth via close proximity precursor supply
‡9
1
|
919
|
|
|
‡a
transparentconductingfilmsfromnbse3nanowires
‡A
Transparent conducting films from NbSe3nanowires
‡9
1
|
919
|
|
|
‡a
transparentflexibleandhighlyconductivethinfilmsbasedonpolymernanotubecomposites
‡A
Transparent, Flexible, and Highly Conductive Thin Films Based on Polymer−Nanotube Composites
‡9
1
|
919
|
|
|
‡a
transportandfieldemissionincarbonnanotubepolymercompositecathodes
‡A
Transport and field emission in carbon nanotube - polymer composite cathodes
‡9
1
|
919
|
|
|
‡a
tuneablephotoconductivityandmobilityenhancementinprintedmos2graphenecomposites
‡A
Tuneable photoconductivity and mobility enhancement in printed MoS2/graphene composites
‡9
1
|
919
|
|
|
‡a
tuningthemechanicalpropertiesofcompositesfromelastomerictorigidthermoplasticbycontrolledadditionofcarbonnanotubes
‡A
Tuning the Mechanical Properties of Composites from Elastomeric to Rigid Thermoplastic by Controlled Addition of Carbon Nanotubes
‡9
1
|
919
|
|
|
‡a
turbulenceassistedshearexfoliationofgrapheneusinghouseholddetergentandakitchenblender
‡A
Turbulence-assisted shear exfoliation of graphene using household detergent and a kitchen blender
‡9
1
|
919
|
|
|
‡a
2dimensionalnanosheetsproducedbyliquidexfoliationoflayeredmaterials
‡A
Two-dimensional nanosheets produced by liquid exfoliation of layered materials
‡9
1
|
919
|
|
|
‡a
ultrafastnonlinearexcitationdynamicsofblackphosphorusnanosheetsfromvisibletomidinfrared
‡A
Ultrafast Nonlinear Excitation Dynamics of Black Phosphorus Nanosheets from Visible to Mid-Infrared.
‡9
1
|
919
|
|
|
‡a
understandingthedispersionandassemblyofbacterialcelluloseinorganicsolvents
‡A
Understanding the Dispersion and Assembly of Bacterial Cellulose in Organic Solvents
‡9
1
|
919
|
|
|
‡a
usingsolutionthermodynamicstodescribethedispersionofrodlikesolutesapplicationtodispersionsofcarbonnanotubesinorganicsolvents
‡A
Using solution thermodynamics to describe the dispersion of rod-like solutes: application to dispersions of carbon nanotubes in organic solvents
‡9
1
|
919
|
|
|
‡a
whitegrapheneundergoesperoxidasedegradation
‡A
White Graphene undergoes Peroxidase Degradation.
‡9
1
|
946
|
|
|
‡a
b
‡9
1
|
996
|
|
|
‡2
NUKAT|n 2022185499
|
996
|
|
|
‡2
NTA|07316271X
|
996
|
|
|
‡2
LC|n 2018180252
|
996
|
|
|
‡2
CAOONL|ncf10820898
|
996
|
|
|
‡2
ISNI|0000000084189939
|
996
|
|
|
‡2
BIBSYS|90699311
|
996
|
|
|
‡2
BIBSYS|90258987
|
996
|
|
|
‡2
NII|DA17376736
|
996
|
|
|
‡2
BNF|14165619
|
996
|
|
|
‡2
RERO|A012876815
|
996
|
|
|
‡2
RERO|A003115677
|
996
|
|
|
‡2
CAOONL|ncf10036305
|
996
|
|
|
‡2
ISNI|0000000115870912
|
996
|
|
|
‡2
NLA|000035029641
|
996
|
|
|
‡2
NTA|108118959
|
996
|
|
|
‡2
LC|n 86026065
|
996
|
|
|
‡2
NII|DA11785754
|
996
|
|
|
‡2
N6I|vtls001395669
|
996
|
|
|
‡2
LC|no2001015765
|
996
|
|
|
‡2
BIBSYS|90983492
|
996
|
|
|
‡2
ISNI|0000000116339250
|
996
|
|
|
‡2
LC|n 86066627
|
996
|
|
|
‡2
LC|n 85155261
|
996
|
|
|
‡2
BIBSYS|1634281496044
|
996
|
|
|
‡2
SUDOC|191074519
|
996
|
|
|
‡2
NSK|000566401
|
996
|
|
|
‡2
SUDOC|180110071
|
996
|
|
|
‡2
RERO|A003115612
|
996
|
|
|
‡2
RERO|A003115614
|
996
|
|
|
‡2
J9U|987007457732905171
|
996
|
|
|
‡2
RERO|A003115616
|
996
|
|
|
‡2
RERO|A003115617
|
996
|
|
|
‡2
RERO|A003115618
|
996
|
|
|
‡2
NUKAT|n 99031484
|
996
|
|
|
‡2
N6I|vtls000013464
|
996
|
|
|
‡2
CAOONL|ncf11173681
|
996
|
|
|
‡2
RERO|A003115603
|
996
|
|
|
‡2
ISNI|0000000457095151
|
996
|
|
|
‡2
ISNI|0000000391670255
|
996
|
|
|
‡2
ISNI|0000000078133410
|
996
|
|
|
‡2
ISNI|0000000082031492
|
996
|
|
|
‡2
J9U|987007421902605171
|
996
|
|
|
‡2
LC|no2015001179
|
996
|
|
|
‡2
J9U|987007366255005171
|
996
|
|
|
‡2
BNCHL|10000000000000000153445
|
996
|
|
|
‡2
ISNI|0000000025714764
|
996
|
|
|
‡2
CAOONL|ncf10114776
|
996
|
|
|
‡2
RERO|A012509043
|
996
|
|
|
‡2
LC|no 99088589
|
996
|
|
|
‡2
CAOONL|ncf10364993
|
996
|
|
|
‡2
SUDOC|26845373X
|
996
|
|
|
‡2
LC|n 92114570
|
996
|
|
|
‡2
N6I|vtls000044146
|
996
|
|
|
‡2
NSK|000241711
|
996
|
|
|
‡2
DNB|173845703
|
996
|
|
|
‡2
SUDOC|035316063
|
996
|
|
|
‡2
NUKAT|n 02060201
|
996
|
|
|
‡2
NII|DA0211736X
|
996
|
|
|
‡2
DNB|135942926
|
996
|
|
|
‡2
BAV|495_175657
|
996
|
|
|
‡2
ISNI|0000000071844084
|
996
|
|
|
‡2
NUKAT|n 02022387
|
996
|
|
|
‡2
LC|n 88667984
|
996
|
|
|
‡2
DE633|pe30011227
|
996
|
|
|
‡2
BIBSYS|90578489
|
996
|
|
|
‡2
LC|n 2003080393
|
996
|
|
|
‡2
DNB|171359542
|
996
|
|
|
‡2
ISNI|0000000439754942
|
996
|
|
|
‡2
DNB|115846536X
|
996
|
|
|
‡2
SUDOC|261933698
|
996
|
|
|
‡2
B2Q|0000316187
|
996
|
|
|
‡2
LC|n 2013186607
|
996
|
|
|
‡2
NII|DA16102203
|
996
|
|
|
‡2
NII|DA04627946
|
996
|
|
|
‡2
NII|DA1040358X
|
996
|
|
|
‡2
BIBSYS|12046296
|
996
|
|
|
‡2
SUDOC|061395315
|
996
|
|
|
‡2
N6I|vtls000031795
|
996
|
|
|
‡2
NII|DA11225658
|
996
|
|
|
‡2
DNB|1187838721
|
996
|
|
|
‡2
NII|DA02004818
|
996
|
|
|
‡2
LC|no2017123730
|
996
|
|
|
‡2
SUDOC|188205217
|
996
|
|
|
‡2
LC|nb2014005969
|
996
|
|
|
‡2
NSK|000374914
|
996
|
|
|
‡2
NTA|11544498X
|
996
|
|
|
‡2
LC|no2012040601
|
996
|
|
|
‡2
BIBSYS|90056450
|
996
|
|
|
‡2
LC|no2006043609
|
996
|
|
|
‡2
BIBSYS|8017124
|
996
|
|
|
‡2
BNF|13181172
|
996
|
|
|
‡2
LC|n 2009066246
|
996
|
|
|
‡2
J9U|987007461493705171
|
996
|
|
|
‡2
CAOONL|ncf10177509
|
996
|
|
|
‡2
LC|n 85113767
|
996
|
|
|
‡2
DNB|188459952
|
996
|
|
|
‡2
NII|DA03351395
|
996
|
|
|
‡2
BIBSYS|90252203
|
996
|
|
|
‡2
LC|n 88656558
|
996
|
|
|
‡2
SUDOC|253499682
|
996
|
|
|
‡2
LC|n 2009069935
|
996
|
|
|
‡2
NUKAT|n 01719192
|
996
|
|
|
‡2
ISNI|0000000107984514
|
996
|
|
|
‡2
BIBSYS|90714696
|
996
|
|
|
‡2
LC|n 2002081540
|
996
|
|
|
‡2
KRNLK|KAC200902895
|
996
|
|
|
‡2
ISNI|0000000395168465
|
996
|
|
|
‡2
J9U|987007325062605171
|
996
|
|
|
‡2
ISNI|0000000073942948
|
996
|
|
|
‡2
ISNI|0000000048182713
|
996
|
|
|
‡2
CAOONL|ncf11934441
|
996
|
|
|
‡2
SUDOC|26374910X
|
996
|
|
|
‡2
ISNI|0000000036662816
|
996
|
|
|
‡2
ISNI|0000000116711470
|
996
|
|
|
‡2
N6I|vtls000090374
|
996
|
|
|
‡2
BIBSYS|90070960
|
996
|
|
|
‡2
LC|n 85234536
|
996
|
|
|
‡2
LC|n 88117082
|
996
|
|
|
‡2
BIBSYS|90631305
|
996
|
|
|
‡2
SUDOC|092180655
|
996
|
|
|
‡2
NTA|107706792
|
996
|
|
|
‡2
NTA|067854451
|
996
|
|
|
‡2
LC|n 2024031178
|
996
|
|
|
‡2
NSK|000124062
|
996
|
|
|
‡2
ISNI|0000000062432715
|
996
|
|
|
‡2
KRNLK|KAC200611785
|
996
|
|
|
‡2
DNB|1158189966
|
996
|
|
|
‡2
ISNI|0000000116180171
|
996
|
|
|
‡2
CAOONL|ncf11321642
|
996
|
|
|
‡2
RERO|A006199787
|
996
|
|
|
‡2
BNE|XX1723206
|
996
|
|
|
‡2
DNB|1243859644
|
996
|
|
|
‡2
LC|n 90678413
|
996
|
|
|
‡2
BIBSYS|90729325
|
996
|
|
|
‡2
LC|n 90696673
|
996
|
|
|
‡2
CAOONL|ncf10153671
|
996
|
|
|
‡2
LC|n 88672683
|
996
|
|
|
‡2
NII|DA10155830
|
996
|
|
|
‡2
BIBSYS|2041890
|
996
|
|
|
‡2
NII|DA07734013
|
996
|
|
|
‡2
LC|no2010067122
|
996
|
|
|
‡2
LC|n 81145425
|
996
|
|
|
‡2
CAOONL|ncf11313466
|
996
|
|
|
‡2
NUKAT|n 2004048348
|
996
|
|
|
‡2
NTA|097576107
|
996
|
|
|
‡2
LNB|LNC10-000035728
|
996
|
|
|
‡2
J9U|987007342069305171
|
996
|
|
|
‡2
ISNI|0000000063592980
|
996
|
|
|
‡2
RERO|A010993858
|
996
|
|
|
‡2
J9U|987007277433405171
|
996
|
|
|
‡2
LC|n 87942479
|
996
|
|
|
‡2
J9U|987007259950505171
|
996
|
|
|
‡2
DNB|135428106
|
996
|
|
|
‡2
LC|no 95046581
|
996
|
|
|
‡2
NSK|000566397
|
996
|
|
|
‡2
RERO|A003115615
|
996
|
|
|
‡2
LC|no2014040045
|
996
|
|
|
‡2
ISNI|0000000067581007
|
996
|
|
|
‡2
ISNI|0000000043678875
|
996
|
|
|
‡2
NUKAT|n 2014200655
|
996
|
|
|
‡2
BAV|495_175660
|
996
|
|
|
‡2
NSK|000057386
|
996
|
|
|
‡2
PLWABN|9810567216005606
|
996
|
|
|
‡2
SUDOC|176009493
|
996
|
|
|
‡2
NLA|000035981079
|
996
|
|
|
‡2
NII|DA01259970
|
996
|
|
|
‡2
ISNI|0000000033069400
|
996
|
|
|
‡2
CAOONL|ncf10035037
|
997
|
|
|
‡a
1973 0 lived 0122 0
‡9
1
|
998
|
|
|
‡a
Coleman, Jonathan N.
‡2
DNB|1167533836
‡3
suggested
‡3
standard number
|