Shengpan Peng scite author profile

Shengpan Peng

4Publications

124Citation Statements Received

64Citation Statements Given

How they've been cited

289

117

How they cite others

149

Affiliations

National Institute of Clean and Low-Carbon Energy, University of Chinese Academy of Sciences, Institute of Process Engineering

Publications

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Rich surface Co(iii) ions-enhanced Co nanocatalyst benzene/toluene oxidation performance derived from Co^IICo^IIIlayered double hydroxide

et al. 2016

Nanoscale

134

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A hierarchical CoCo layered double hydroxide (LDH) nanostructure was constructed through a facile topochemical transformation route under a dynamic oxygen atmosphere. Self-assembled coral-like CoAl LDH nanostructures via the homogeneous precipitation method were also inspected under different ammonia-releasing reagents and solvents. Benzene and toluene were chosen as probe molecules to evaluate their catalytic performance over the metal oxide CoCoO and CoAlO calcined from their corresponding LDH precursors. Nanocatalyst of trivalent Co ions replaced Al(3+) ions in the bruited-like layer had a higher catalytic activity (T99(benzene) = 210 °C and T99(toluene) = 220 °C at a space velocity = 60 000 mL g(-1) h(-1)). Raman spectroscopy, XPS and H2-TPR demonstrated the existence of abundant high valence Co ions that serve as active sites. TPD verified the types of active oxygen species and surface acid properties. It was concluded that the high valence Co ions induced excellent low-temperature reducibility. Surface Lewis acid sites and the surface Oads/Olatt molar ratio (0.61) played relevant roles in determining its catalytic oxidation performance. Our design in this work provides a promising approach for the development of nanocatalysts with exposed desirable defects.

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Monolithic Mn/Ce-based catalyst of fibrous ceramic membrane for complete oxidation of benzene

Cuo

Deng

et al. 2018

Applied Surface Science

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Promotional effects of Ce on the activity of Mn Al oxide catalysts derived from hydrotalcites for low temperature benzene oxidation

et al. 2016

Catalysis Communications

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Highly porous fibrous mullite ceramic membrane with interconnected pores for high performance dust removal

Cuo

Liu

Zhao

et al. 2018

Ceramics International

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Shengpan Peng

Rich surface Co(iii) ions-enhanced Co nanocatalyst benzene/toluene oxidation performance derived from Co^IICo^IIIlayered double hydroxide

Monolithic Mn/Ce-based catalyst of fibrous ceramic membrane for complete oxidation of benzene

Promotional effects of Ce on the activity of Mn Al oxide catalysts derived from hydrotalcites for low temperature benzene oxidation

Highly porous fibrous mullite ceramic membrane with interconnected pores for high performance dust removal

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Shengpan Peng

Rich surface Co(iii) ions-enhanced Co nanocatalyst benzene/toluene oxidation performance derived from CoIICoIIIlayered double hydroxide

Monolithic Mn/Ce-based catalyst of fibrous ceramic membrane for complete oxidation of benzene

Promotional effects of Ce on the activity of Mn Al oxide catalysts derived from hydrotalcites for low temperature benzene oxidation

Highly porous fibrous mullite ceramic membrane with interconnected pores for high performance dust removal

Contact Info

Product

Resources

About

Rich surface Co(iii) ions-enhanced Co nanocatalyst benzene/toluene oxidation performance derived from Co^IICo^IIIlayered double hydroxide