Selective hydroconversion of 5-hydroxymethylfurfural to 2,5-bis(hydroxymethyl)furan using carbon nanotubes-supported nickel catalysts

IF 6.4 3区环境科学与生态学 Q2 ENERGY & FUELS Carbon Resources Conversion Pub Date : 2022-12-01 DOI:10.1016/j.crcon.2022.08.001

Zexing Huang, Xiaoao Sun, Wenguang Zhao, Xiaoting Zhu, Zhijuan Zeng, Qiong Xu, Xianxiang Liu

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引用次数: 4

Abstract

2,5-Bis(hydroxymethyl)furan (BHMF) is a high-value, bio-based, rigid diol that resembles aromatic monomers for the production of different polyesters. In this work, a carbon nanotubes (CNTs)-supported nickel catalyst (Ni/CNTs) was prepared and used for the selective hydrogenation of 5-hydroxymethylfurfural (HMF) to BHMF at low hydrogen pressure. The prepared catalyst was analyzed by nitrogen adsorption–desorption isotherms, X-ray diffraction (XRD), and X-ray photoelectron spectroscopy (XPS). According to kinetic studies, the rate constant for BHMF formation is significantly larger than that for the formation of the byproduct, 5-methyl furfural (MF). At optimal reaction conditions, conversion and selectivity rates of HMF and BHMF were 99.8 % and 95.0 %, respectively. The mechanistic study indicated the coexistence of Ni⁰ and Ni²⁺ species on the catalyst surface affects the catalytic performance. A possible mechanism was proposed to describe the synergetic effects of Ni⁰ and Ni²⁺. Furthermore, the catalyst can be easily separated from the reaction mixture for recycling.

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碳纳米管负载镍催化剂催化5-羟甲基糠醛选择性加氢转化为2,5-二(羟甲基)呋喃

2,5-二(羟甲基)呋喃(BHMF)是一种高价值的生物基刚性二醇，类似于芳香单体，用于生产不同的聚酯。本研究制备了一种碳纳米管负载镍催化剂(Ni/CNTs)，并将其用于5-羟甲基糠醛(HMF)在低氢压力下选择性加氢制备BHMF。采用氮吸附-脱附等温线、x射线衍射(XRD)和x射线光电子能谱(XPS)对催化剂进行了分析。根据动力学研究，BHMF的生成速率常数明显大于副产物5-甲基糠醛(MF)的生成速率常数。在最佳反应条件下，HMF和BHMF的转化率和选择性分别为99.8%和95.0%。机理研究表明，Ni0和Ni2+在催化剂表面的共存影响催化剂的催化性能。提出了Ni0和Ni2+协同作用的可能机理。此外，催化剂可以很容易地从反应混合物中分离出来进行回收。

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来源期刊

Carbon Resources Conversion Materials Science-Materials Science (miscellaneous)

CiteScore

9.90

自引率

11.70%

发文量

审稿时长

10 weeks

期刊介绍： Carbon Resources Conversion (CRC) publishes fundamental studies and industrial developments regarding relevant technologies aiming for the clean, efficient, value-added, and low-carbon utilization of carbon-containing resources as fuel for energy and as feedstock for materials or chemicals from, for example, fossil fuels, biomass, syngas, CO2, hydrocarbons, and organic wastes via physical, thermal, chemical, biological, and other technical methods. CRC also publishes scientific and engineering studies on resource characterization and pretreatment, carbon material innovation and production, clean technologies related to carbon resource conversion and utilization, and various process-supporting technologies, including on-line or off-line measurement and monitoring, modeling, simulations focused on safe and efficient process operation and control, and process and equipment optimization.