Jingfang Zhou scite author profile

Defect-rich MoS2 ultrathin nanosheets are synthesized on a gram scale for electrocatalytic hydrogen evolution. The novel defect-rich structure introduces additional active edge sites into the MoS2 ultrathin nanosheets, which significantly improves their electrocatalytic performance. Low onset overpotential and small Tafel slope, along with large cathodic current density and excellent durability, are all achieved for the novel hydrogen-evolution-reaction electrocatalyst.

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Functionalized gold nanoparticles: Synthesis, structure and colloid stability

Zhou

Ralston

Sedev

et al. 2009

Journal of Colloid and Interface Science

368

223

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Atomically Thin Tin Dioxide Sheets for Efficient Catalytic Oxidation of Carbon Monoxide

et al. 2013

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The thinner the better: SnO2 sheets that are five atomic layers thick are an efficient catalyst for the oxidation of CO. These sheets, which have 40% surface atom occupancy and are fabricated by a scalable ethylenediamine-assisted pathway, show remarkably improved catalytic performances compared to other SnO2 species, with the apparent activation energy lowered to 59.2 kJ mol(-1) and the full-conversion-temperature lowered to 250 °C.

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Study on an antiwear and extreme pressure additive of surface coated LaF3 nanoparticles in liquid paraffin

Zhou

Zhang

et al. 2001

Wear

218

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Agarose Template for the Fabrication of Macroporous Metal Oxide Structures

2006

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Agarose gels have been applied as templates for the formation of macroporous metal oxide structures. The preparation of the agarose template is extremely simple, and with variation of the agarose content, control over morphology is demonstrated: The average pore size decreases from 180 to 55 nm and the surface area increases from 238 to 271 m2 g(-1) with increasing agarose content in the gel. The gelling temperature was also found to influence the final template morphology. Conducting sol-gel chemistry within the template structure followed by removal of the template by heating to 450 degrees C gives porous inorganic oxides. The technique has been demonstrated for the oxides of titanium, zirconium, niobium, and tin. The final morphology of the metal oxide is homogeneous and results from a coating of the agarose structure. The pore diameter decreased and the specific surface area of the titanium dioxide materials increased from 28 to 66 m2 g(-1) as the agarose content in the template is increased from 0.5 to 5.0 wt%. The overall pore size and surface area are lower than the original gel due to shrinkage occurring with the sol-gel process, as well as crystallization and a loss of microporosity in the final material.

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Jingfang Zhou

Defect‐Rich MoS₂ Ultrathin Nanosheets with Additional Active Edge Sites for Enhanced Electrocatalytic Hydrogen Evolution

Functionalized gold nanoparticles: Synthesis, structure and colloid stability

Atomically Thin Tin Dioxide Sheets for Efficient Catalytic Oxidation of Carbon Monoxide

Study on an antiwear and extreme pressure additive of surface coated LaF3 nanoparticles in liquid paraffin

Agarose Template for the Fabrication of Macroporous Metal Oxide Structures

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Resources

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Jingfang Zhou

Defect‐Rich MoS2 Ultrathin Nanosheets with Additional Active Edge Sites for Enhanced Electrocatalytic Hydrogen Evolution

Functionalized gold nanoparticles: Synthesis, structure and colloid stability

Atomically Thin Tin Dioxide Sheets for Efficient Catalytic Oxidation of Carbon Monoxide

Study on an antiwear and extreme pressure additive of surface coated LaF3 nanoparticles in liquid paraffin

Agarose Template for the Fabrication of Macroporous Metal Oxide Structures

Contact Info

Product

Resources

About

Defect‐Rich MoS₂ Ultrathin Nanosheets with Additional Active Edge Sites for Enhanced Electrocatalytic Hydrogen Evolution