Efficient Co‐Cu/MS Catalyst from the Sequential Adsorption and Carbonization of Melamine Foam for the Selective Oxidation of 5‐Hydroxymethylfurfural (HMF)

Author:

Le Tan Khanh Trinh1,Nguyen Hong Thuc Duyen2,Kongparakul Suwadee13,Zhang Haibo4,Guan Guoqing5,Chanlek Narong6,An Tran Nguyen Minh2,Tran Thi Tuong Vi7,Samart Chanatip123ORCID

Affiliation:

1. Department of Chemistry Faculty of Science and Technology Thammasat University Pathumtani 12120 Thailand

2. Faculty of Chemical Engineering Industrial University of Ho Chi Minh City Ho Chi Minh City 71406 Vietnam

3. Thammasat University Research Unit in Bioenergy and Catalysis Thammasat University Pathumtani 12120 Thailand

4. School of Materials Science and Engineering Huazhong University of Science and Technology Wuhan Hubei 430074 P.R. China

5. Institute of Regional Innovation Hirosaki University Aomori 030-0813 Japan

6. Synchrotron Light Research Institute 111 University Avenue Muang District Nakhon Ratchasima 30000 Thailand

7. Faculty of Environmental and Food Engineering Nguyen Tat Thanh University Ho Chi Minh City 70000 Vietnam

Abstract

AbstractPolyethylenefuranoate, a suitable alternative for polyethylene terephthalate, can be synthesized from biomass‐derived 2,5‐furandicarboxylic acid (FDCA), which is obtained via the selective oxidation of 5‐hydroxymethylfurfural (HMF) over noble or non‐noble metal oxide catalysts. However, the FDCA yields using non‐noble metal catalysts can be improved. Hence, in this study, we developed a series of Co‐ and Cu‐embedded melamine sponge (MS)‐derived carbon catalysts (xCo‐Cu/MS) for HMF oxidation, wherein Co and Cu oxides with different Co : Cu ratios were embedded in carbonized MS. The metals were adsorbed on the MS, followed by carbonization. This strategy allowed the uniform distribution of metal clusters in the carbon texture, which enhanced the catalytic activity for HMF conversion and improved the FDCA yield. The good distribution and small crystal size of Co3O4 significantly increased the active surface area, enhancing the catalytic activity. Compared to Co‐Cu/MS catalysts, the 4Co‐Cu/activated carbon catalyst synthesized via impregnation afforded the maximum FDCA yield (93 %) with 100 % HMF conversion at 170 °C and 7 h. Moreover, oxidative regeneration using H2O2 proved to be the best regeneration method for the MS catalysts, with only a 5 % decrease in the FDCA yield after three cycles.

Funder

National Research Council of Thailand

Publisher

Wiley

Subject

General Chemistry

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