Chaozheng He scite author profile

Mass production of graphene with low cost and high throughput is very important for practical applications of graphene materials. The most promising approach to produce graphene with low defect content at a large scale is exfoliation of graphite in an aqueous solution of surfactants. Herein, we report a molecular design strategy to develop surfactants by attaching ionic groups to an electron-deficient π-conjugated unit with flexible alkyl spacers. The molecular design strategy enables the surfactant molecules to interact strongly with both the graphene sheets and the water molecules, greatly improving graphene dispersion in water. As the result, a few-layered graphene concentration as high as 1.2-5.0 mg mL(-1) is demonstrated with the surfactant, which is much higher than those (<0.1 mg mL(-1)) obtained with normal aromatic or nonaromatic surfactants. Moreover, the surfactant can be easily synthesized at large scale. The superior performance and convenient synthesis make the surfactant very promising for mass production of graphene.

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Graphyne as a promising substrate for the noble-metal single-atom catalysts

Wang

et al. 2015

Carbon

184

103

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3d transition metal embedded C2N monolayers as promising single-atom catalysts: A first-principles study

Wang

Yan

et al. 2016

Carbon

165

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The adsorption of CO and NO on the MoS2 monolayer doped with Au, Pt, Pd, or Ni: A first-principles study

et al. 2016

Applied Surface Science

332

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NO dissociation and reduction by H 2 on Pd(1 1 1): A first-principles study

Huai

Wang

et al. 2015

Journal of Catalysis

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Highly dispersive and stable Fe³⁺ active sites on 2D graphitic carbon nitride nanosheets for efficient visible-light photocatalytic nitrogen fixation

et al. 2019

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A first-principles study on the role of hydrogen in early stage of graphene growth during the CH4 dissociation on Cu(111) and Ni(111) surfaces

Jiao

et al. 2014

Carbon

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Chaozheng He

Novel catalytic activity for oxygen reduction reaction on MnN4 embedded graphene: A dispersion-corrected density functional theory study

Rationally Designed Surfactants for Few-Layered Graphene Exfoliation: Ionic Groups Attached to Electron-Deficient π-Conjugated Unit through Alkyl Spacers

Graphyne as a promising substrate for the noble-metal single-atom catalysts

3d transition metal embedded C2N monolayers as promising single-atom catalysts: A first-principles study

The adsorption of CO and NO on the MoS2 monolayer doped with Au, Pt, Pd, or Ni: A first-principles study

NO dissociation and reduction by H 2 on Pd(1 1 1): A first-principles study

Highly dispersive and stable Fe³⁺ active sites on 2D graphitic carbon nitride nanosheets for efficient visible-light photocatalytic nitrogen fixation

A first-principles study on the role of hydrogen in early stage of graphene growth during the CH4 dissociation on Cu(111) and Ni(111) surfaces

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Chaozheng He

Novel catalytic activity for oxygen reduction reaction on MnN4 embedded graphene: A dispersion-corrected density functional theory study

Rationally Designed Surfactants for Few-Layered Graphene Exfoliation: Ionic Groups Attached to Electron-Deficient π-Conjugated Unit through Alkyl Spacers

Graphyne as a promising substrate for the noble-metal single-atom catalysts

3d transition metal embedded C2N monolayers as promising single-atom catalysts: A first-principles study

The adsorption of CO and NO on the MoS2 monolayer doped with Au, Pt, Pd, or Ni: A first-principles study

NO dissociation and reduction by H 2 on Pd(1 1 1): A first-principles study

Highly dispersive and stable Fe3+ active sites on 2D graphitic carbon nitride nanosheets for efficient visible-light photocatalytic nitrogen fixation

A first-principles study on the role of hydrogen in early stage of graphene growth during the CH4 dissociation on Cu(111) and Ni(111) surfaces

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Highly dispersive and stable Fe³⁺ active sites on 2D graphitic carbon nitride nanosheets for efficient visible-light photocatalytic nitrogen fixation