Liu et al., 2012 - Google Patents

Preparation of few-layer and single-layer graphene by exfoliation of expandable graphite in supercritical N, N-dimethylformamide

Liu et al., 2012

Document ID: 9606814164362774498
Author: Liu C; Hu G; Gao H
Publication year: 2012
Publication venue: The Journal of Supercritical Fluids

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Few-layer graphene (FG) is produced in supercritical N, N-dimethylformamide (DMF) using expandable graphite (EG) as starting material in less than 15min. Monolayer graphene is produced by exfoliation of FG in supercritical DMF. The samples were characterized by …

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 [C] 0 title abstract description 97

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- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01B—NON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
- C01B31/00—Carbon; Compounds thereof
- C01B31/02—Preparation of carbon; Purification; After-treatment
- C01B31/04—Graphite, including modified graphite, e.g. graphitic oxides, intercalated graphite, expanded graphite or graphene
- C01B31/0438—Graphene
- C01B31/0446—Preparation
- C01B31/0469—Preparation by exfoliation
- C01B31/0476—Preparation by exfoliation starting from graphitic oxide
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- C01B31/0206—Nanosized carbon materials
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- C01B31/02—Preparation of carbon; Purification; After-treatment
- C01B31/04—Graphite, including modified graphite, e.g. graphitic oxides, intercalated graphite, expanded graphite or graphene
- C01B31/0423—Expanded or exfoliated graphite
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- C01B31/02—Preparation of carbon; Purification; After-treatment
- C01B31/0206—Nanosized carbon materials
- C01B31/022—Carbon nanotubes
- C01B31/0226—Preparation
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- C01B31/0206—Nanosized carbon materials
- C01B31/0293—Other structures, e.g. nano-onions, nano-scrolls, nano-horns, nano-cones or nano-walls
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- C01B2204/00—Structure or properties of graphene
- C01B2204/04—Specific amount of layers or specific thickness
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- C01B2202/00—Structure or properties of carbon nanotubes
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B82—NANO-TECHNOLOGY
- B82Y—SPECIFIC USES OR APPLICATIONS OF NANO-STRUCTURES; MEASUREMENT OR ANALYSIS OF NANO-STRUCTURES; MANUFACTURE OR TREATMENT OF NANO-STRUCTURES
- B82Y30/00—Nano-technology for materials or surface science, e.g. nano-composites
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- C01B35/00—Boron; Compounds thereof

Publication	Publication Date	Title
Liu et al.	2012	Preparation of few-layer and single-layer graphene by exfoliation of expandable graphite in supercritical N, N-dimethylformamide
Nethravathi et al.	2008	Chemically modified graphene sheets produced by the solvothermal reduction of colloidal dispersions of graphite oxide
Dhakate et al.	2011	An approach to produce single and double layer graphene from re-exfoliation of expanded graphite
Li et al.	2016	Preparation of graphene nanosheets by shear-assisted supercritical CO2 exfoliation
Low et al.	2015	Easy preparation of ultrathin reduced graphene oxide sheets at a high stirring speed
Hossain et al.	2016	Electrochemical exfoliation of graphite: effect of temperature and hydrogen peroxide addition
Johra et al.	2014	Facile and safe graphene preparation on solution based platform
Zhao et al.	2014	Facile preparation of large-scale graphene nanoscrolls from graphene oxide sheets by cold quenching in liquid nitrogen
Ismail et al.	2019	Synthesis and characterization of graphene derived from rice husks
Jibrael et al.	2016	Production of graphene powder by electrochemical exfoliation of graphite electrodes immersed in aqueous solution
Hack et al.	2018	Characterization of graphene nanosheets obtained by a modified Hummer's method
Van Khai et al.	2013	Direct production of highly conductive graphene with a low oxygen content by a microwave-assisted solvothermal method
Güler et al.	2021	The production of graphene by direct liquid phase exfoliation of graphite at moderate sonication power by using low boiling liquid media: The effect of liquid media on yield and optimization
Jiang et al.	2017	A novel synthesis route of graphene via microwave assisted intercalation-exfoliation of graphite
Zhang et al.	2010	Fabrication and characterization of few-layer graphene
Khenfouch et al.	2014	Synthesis and characterization of mass produced high quality few layered graphene sheets via a chemical method
Peng et al.	2016	Characterisation of reduced graphene oxides prepared from natural flaky, lump and amorphous graphites
Zhou et al.	2013	A facile liquid phase exfoliation method to prepare graphene sheets with different sizes expandable graphite
Yang et al.	2011	A facile one-step hydrothermal method to produce graphene–MoO3 nanorod bundle composites
Lü et al.	2011	Low-temperature rapid synthesis of high-quality pristine or boron-doped graphene via Wurtz-type reductive coupling reaction
Yuan et al.	2014	A facile approach to prepare graphene via solvothermal reduction of graphite oxide
El-shazly et al.	2015	Reduced humic acid nanosheets and its uses as nanofiller
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Liu et al., 2012 - Google Patents

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