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Defect-Engineered Heat Transport in Graphene: A Route to High Efficient Thermal Rectification.Optical Fibre Sensors Using Graphene-Based Materials: A Review.Facile Access to Graphene Oxide from Ferro-Induced Oxidation.Enhanced Power Output of a Triboelectric Nanogenerator Composed of Electrospun Nanofiber Mats Doped with Graphene OxideThree-dimensionally networked graphene hydroxide with giant pores and its application in supercapacitorspH-sensitive nanocargo based on smart polymer functionalized graphene oxide for site-specific drug delivery.Graphene-Induced Pore Formation on Cell Membranes.Hydrothermal deoxygenation of graphene oxide: chemical and structural evolution.Bio-Engineered Graphene-Based Cage for Efficient Local Enrichment and Biodegradation of Aqueous Organic Wastes.Enhancement of Catalytic Activity of Reduced Graphene Oxide Via Transition Metal Doping Strategy.Sulfonated reduced graphene oxide catalyzed cyclization of hydrazides and carbon dioxide to 1,3,4-oxadiazoles under sonicationCharacteristics of Raman spectra for graphene oxide from ab initio simulations.pH dependent isotropic to nematic phase transitions in graphene oxide dispersions reveal droplet liquid crystalline phases.High quality NMP exfoliated graphene nanosheet-SnO2 composite anode material for lithium ion battery.Two-dimensional polymers: just a dream of synthetic chemists?Breakdown of fast water transport in graphene oxides.Removal of Congo Red by magnetic mesoporous titanium dioxide-graphene oxide core-shell microspheres for water purification.Fast and fully-scalable synthesis of reduced graphene oxideInsights from investigations of tin dioxide and its composites: electron-beam irradiation, fractal assessment, and mechanism.Edge-carboxylated graphene nanosheets via ball milling.Surface and Interface Engineering of Graphene Oxide Films by Controllable Photoreduction.ICG-conjugated Magnetic Graphene Oxide for Dual Photothermal and Photodynamic Therapy.Molecular simulations of conformation change and aggregation of HIV-1 Vpr13-33 on graphene oxide.Quantum confinement-induced tunable exciton states in graphene oxideMolecular Dynamics Simulations Reveal that Water Diffusion between Graphene Oxide Layers is SlowOrigin of the chemical and kinetic stability of graphene oxide.Ultrahigh humidity sensitivity of graphene oxide.Comparative Study of the Catalytic Activities of Three Distinct Carbonaceous Materials through Photocatalytic Oxidation, CO Conversion, Dye Degradation, and Electrochemical Measurements.Graphene nanoplatelets induced heterogeneous bimodal structural magnesium matrix composites with enhanced mechanical properties.Guiding osteogenesis of mesenchymal stem cells using carbon-based nanomaterials.Magnetic frustration of graphite oxide.2D materials: to graphene and beyond.From conception to realization: an historial account of graphene and some perspectives for its future.Carbon nanomaterials for advanced energy conversion and storage.Graphene oxide as an optical biosensing platform.Engineering the electronic structure of graphene.New routes to graphene, graphene oxide and their related applications.Graphene-based electrodes.Recent advances in the efficient reduction of graphene oxide and its application as energy storage electrode materials.Solvated graphenes: an emerging class of functional soft materials.
P2860
Q28647745-245377A6-918C-44BF-AB92-282E4EBCF0A7Q28817099-137CD60C-4FB0-4488-A4C0-758A3134E437Q30391900-99EA194D-6D78-41FE-BA66-4290D099571EQ30402312-61854568-9F11-418B-8D54-BD63C0E0D68EQ30422933-103A3D5B-BBB4-46A5-BBBA-BD6EE0F47345Q30596446-18377A6F-76E9-4642-AA3C-7DD0B8DAC83AQ30839254-C5176295-7EA7-40D2-A7BA-0BD48D06678FQ33458500-589B2702-0A49-4AC3-947C-2660EFFE258FQ33682140-27D5F046-98BC-48D1-88E7-EA0BDC7EF5D4Q33830780-9C60529C-C0FA-4C4F-A79A-3D430258F54AQ33875926-26A6E884-3963-4A8C-A92B-BE01A7DC706CQ34075974-95D541F3-C7F7-4D00-A431-5548F19297AEQ34420042-4016851C-5E44-4F63-88D6-9E197D0AB9D1Q34556817-C1BB6143-ED61-4F98-A949-9BD099A62EC0Q34917693-1E4163B8-E54E-4B9E-9867-D8CD985D762BQ35104553-B785B711-A00E-4ADE-816C-DD19F964F512Q35151015-BBF6B210-18E0-4932-B96D-4D8354094109Q35608318-122BB5CC-4C34-4552-9542-15A53123A20DQ35771924-C39807E7-BD7A-420E-8885-795EDD65671DQ35889244-7D7D32A4-6912-437B-A782-4BCA100C0612Q35984887-A9A46455-375D-4542-A1A6-2A0417C335BAQ36172655-057AB945-D666-4973-B823-FB25FC4E6A33Q36819890-1B70B846-1E06-41CB-AD88-DAFBE74606CFQ37031980-243526FA-31F1-4B08-AF22-7884C0CE2538Q37076703-1E783105-746D-4186-AED8-38073A0CEAF0Q37107794-7A150E07-C625-417C-9B39-3768BD1591C1Q37182139-9BB2A674-0DFF-4389-95C2-2C080F1883ABQ37352746-18E86AA1-6F13-465D-A19E-70D5D686C565Q37493493-289A674F-E665-4F94-A8B1-66036EFB2C5BQ37610383-C886DA14-93DE-4435-825E-2835989A3B8FQ37714841-7CAA007C-1220-4FAF-B4A7-0D83E07FBB82Q37789164-7F9835D5-BE7B-4108-AC46-64EBA60CAE58Q37812591-59C45091-C4DD-4091-BACB-7C8E4AA63966Q37989898-2810CE31-F43B-4FFF-B4C6-405043B3C406Q38013074-0215831B-DFD4-43AC-8673-FF8D2C04F4B3Q38023775-209AC864-C069-467A-8E8E-18F82271E08EQ38035799-42C6D180-A9BF-41BE-AEEC-5A48C9E327A4Q38038560-74A229D7-B1C1-4662-8810-8F9D1359D938Q38062346-4C27191E-6571-4CD9-8570-4F76A33432B5Q38062495-9683DA91-3471-40DF-A3CD-4BE51B109594
P2860
description
im Juni 1998 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 1998
@uk
name
Structure of Graphite Oxide Revisited‖
@en
Structure of Graphite Oxide Revisited‖
@nl
type
label
Structure of Graphite Oxide Revisited‖
@en
Structure of Graphite Oxide Revisited‖
@nl
prefLabel
Structure of Graphite Oxide Revisited‖
@en
Structure of Graphite Oxide Revisited‖
@nl
P2093
P356
P1476
Structure of Graphite Oxide Revisited‖
@en
P2093
Anton Lerf
Jacek Klinowski
Michael Forster
P304
P356
10.1021/JP9731821
P407
P577
1998-06-01T00:00:00Z