One-Pot Preparation of Carbon Immobilized Nano-Metal Catalysts from Biomass

Huimin Yang; Xiao Hui Guo; Chun Hua Yuan; Jin Yan Liu; Wen Xiu He

doi:10.4028/www.scientific.net/MSF.932.119

Paper Titles

Effects of Al₂O₃ Additive on Manganese Phosphate Conversion Coating of Carbon Steel
p.81

Influence of Cold Spraying Process on the Bonding Strength of Ni-Al₂O₃-Zn Coating
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Absorption Rate Evaluation of Fabric-Foam-Fabric Plied Material
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Preparation and Experimental Study of Graphite Material for Water Lubricated Thrust Bearing of Nuclear Main Pump
p.102

Preparation of Nano-TiO₂ Modified Temperature-Responsive Chromatographic Materials for Enrichment of Phosphopeptides
p.109

One-Pot Preparation of Carbon Immobilized Nano-Metal Catalysts from Biomass
p.119

Adsorption of Heavy Metals Using γ-PGA Produced by Bacillus pumilus
p.124

The Preparation and Performance of the Cement-Based Concrete 3D Printing Materials
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Properties of Low Water/Cement Ratio and High Compressive Strength Pervious Concrete
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HomeMaterials Science ForumMaterials Science Forum Vol. 932One-Pot Preparation of Carbon Immobilized...

One-Pot Preparation of Carbon Immobilized Nano-Metal Catalysts from Biomass

Abstract:

Preparation of carbon supported nanometal catalysts were realized through the carbonization of metal precursor doped carboxymethyl cellulose under nitrogen condition. This carbon supported nanometal catalyst exhibited good activity in the reductive amination of amine. The results suggested a promising one-pot route based on economical and sustainable biomass towards the development of value carbon materials as effective catalyst for C-N bond synthesis reaction.

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Materials Science Forum (Volume 932)

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119-123

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https://doi.org/10.4028/www.scientific.net/MSF.932.119

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Online since:

September 2018

Authors:

Huimin Yang*, Xiao Hui Guo, Chun Hua Yuan, Jin Yan Liu, Wen Xiu He

Keywords:

Biomass, Carbon Materials, Nanometal, Reduction Amination

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