about
Thermodynamic picture of ultrafast charge transport in graphene.Atomically precise edge chlorination of nanographenes and its application in graphene nanoribbons.Exfoliation of graphite into graphene in aqueous solutions of inorganic salts.Graphene-based in-plane micro-supercapacitors with high power and energy densities.Assembly and fiber formation of a gemini-type hexathienocoronene amphiphile for electrical conduction.Bioinspired wafer-scale production of highly stretchable carbon films for transparent conductive electrodes.Electrochemically exfoliated graphene as solution-processable, highly conductive electrodes for organic electronics.Nitrogen-doped carbon nanosheets with size-defined mesopores as highly efficient metal-free catalyst for the oxygen reduction reaction.Bottom-Up Fabrication of Sulfur-Doped Graphene Films Derived from Sulfur-Annulated Nanographene for Ultrahigh Volumetric Capacitance Micro-Supercapacitors.Water-based and biocompatible 2D crystal inks for all-inkjet-printed heterostructures.Layer-by-layer assembled heteroatom-doped graphene films with ultrahigh volumetric capacitance and rate capability for micro-supercapacitors.Tuning the Electronic Structure of Graphene by Molecular Dopants: Impact of the Substrate.One-step electrochemical synthesis of nitrogen and sulfur co-doped, high-quality graphene oxide.3D nitrogen-doped graphene aerogel-supported Fe3O4 nanoparticles as efficient electrocatalysts for the oxygen reduction reaction.Organic Radical-Assisted Electrochemical Exfoliation for the Scalable Production of High-Quality Graphene.Magnetoresistance and charge transport in graphene governed by nitrogen dopantsTuning the work function of GaN with organic molecular acceptorsBioapplication of graphene oxide derivatives: drug/gene delivery, imaging, polymeric modification, toxicology, therapeutics and challengesNitrogen-Doped Graphene and Its Iron-Based Composite As Efficient Electrocatalysts for Oxygen Reduction ReactionStacked-Layer Heterostructure Films of 2D Thiophene Nanosheets and Graphene for High-Rate All-Solid-State Pseudocapacitors with Enhanced Volumetric CapacitanceAlternating Stacked Graphene-Conducting Polymer Compact Films with Ultrahigh Areal and Volumetric Capacitances for High-Energy Micro-SupercapacitorsExfoliation of graphene via wet chemical routesGraphene flakes at the SiO2/organic-semiconductor interface for high-mobility field-effect transistorsHigh-performance deformable photoswitches with p-doped graphene as the top window electrodeInherent Resistivity of Graphene to Strong THz FieldsTransparent Conductive Electrodes from Graphene/PEDOT:PSS Hybrid Inks for Ultrathin Organic PhotodetectorsUltrathin Printable Graphene Supercapacitors with AC Line-Filtering PerformanceHigh-Performance Electrocatalysts for Oxygen Reduction Derived from Cobalt Porphyrin-Based Conjugated Mesoporous PolymersPhotolithographic fabrication of high-performance all-solid-state graphene-based planar micro-supercapacitors with different interdigital fingersTuning the Work Function of Graphene-on-Quartz with a High Weight Molecular AcceptorLaser Ablation of Poly(lactic acid) Sheets for the Rapid Prototyping of Sustainable, Single-Use, Disposable Medical MicrocomponentsInkjet printed 2D-crystal based strain gauges on paperGraphene as Transparent Electrodes for Solar CellsWater-based and inkjet printable inks made by electrochemically exfoliated grapheneInkjet-printed graphene Hall mobility measurements and low-frequency noise characterizationRaman Fingerprints of Graphene Produced by Anodic Electrochemical Exfoliation
P50
Q30405186-DE5D19CD-88ED-4451-A365-5DD7ADDB64E7Q37317676-5403543B-CAAC-4252-A318-D5CD77C6E177Q38421400-643768C2-F126-45E7-8F85-5A8D81595009Q42148039-9FDA663F-4557-4418-8CB3-815CAA0379D0Q43870742-0D596D65-6CA5-4A61-B428-79F3C3959917Q43977586-73C2321D-7D1F-459F-8A4A-2A1483F69BF7Q44511200-D44BC124-D38C-48E2-BA5B-A943C8BBFED0Q47187082-9561DFAE-DCE4-4395-A7B5-370C0B982B3DQ48045749-BA032427-8F84-4505-BE20-143E8F9F6B70Q48297914-236B4298-589C-4931-8938-2C9218DC0E61Q51516884-D3F1E017-0B65-4B74-93CC-F915BC00516AQ51806194-CF3B66CC-187A-4A95-9260-BAC604FB72D0Q53621388-24D4354F-5757-4F1E-950B-F869C0A73365Q53711796-19FF89CB-1F0C-4E88-A601-5C91A37E8737Q54186932-45390D63-4FC9-4D3B-9B7C-097BF92CA301Q57160817-B4B589E7-FE17-4F21-AF2D-BDEFCFC5FD8CQ57760301-E3014C72-2ABE-4E44-B084-D11C252A1E1AQ57933621-D020E4A2-0A27-4D4B-81DF-35EB389360ACQ57946808-5FD7BE37-6E3D-46FB-AF3E-CC60E393AC14Q58338153-56871EAD-1D49-4178-842C-2E6878E5E1B9Q58338239-AD30ED8D-505F-4930-A677-3BFF08F21E11Q58338258-64107934-0B08-400A-A447-F50C7619B4DCQ58338260-9964F73B-FE64-4E91-88ED-29CE2040D37FQ58338264-C123B2B8-EDA0-4DDB-AAC7-C24658FA8B3BQ58338266-7EA2E426-B910-49E4-B838-7781E34F8C41Q58338290-BA26F294-5C52-473F-BFB9-6F686F15611AQ58338293-2E396270-47C4-405F-A309-0F6BFDEF8C12Q58338308-C94BBC88-54A9-4EE9-9441-B2F0A325266FQ58338313-AE21AD28-91DF-4D03-9221-F2A96B349076Q60119591-940C1A1E-7058-4E36-95FE-81077ED18166Q60150503-83F5697C-B589-49EC-BEF1-44FDF34BA0C2Q60150504-6A909CA8-F64D-4C22-BD1E-13BF4C3F0078Q60150506-9CEBA271-B354-4EA4-9FF4-A31F907EC24CQ64012095-745E9E6C-ECE6-4B1C-9785-7564EABD2068Q90421263-1F80BC99-91D6-4F18-AB27-29A776422261Q90791581-B19264D2-B63F-4CAF-BB8F-3F2F5034E372
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Khaled Parvez
@ast
Khaled Parvez
@en
Khaled Parvez
@es
Khaled Parvez
@nl
Khaled Parvez
@sl
type
label
Khaled Parvez
@ast
Khaled Parvez
@en
Khaled Parvez
@es
Khaled Parvez
@nl
Khaled Parvez
@sl
prefLabel
Khaled Parvez
@ast
Khaled Parvez
@en
Khaled Parvez
@es
Khaled Parvez
@nl
Khaled Parvez
@sl
P106
P1153
36731578500
P21
P31
P496
0000-0003-2851-9907