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首页> 外文期刊>Fuel >Bifunctional rice husk-derived SiO_2-Cu-Al-Mg nanohybrid catalyst for one-pot conversion of biomass-derived furfural to furfuryl acetate
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Bifunctional rice husk-derived SiO_2-Cu-Al-Mg nanohybrid catalyst for one-pot conversion of biomass-derived furfural to furfuryl acetate

机译:双官能稻壳衍生的SiO_2-Cu-Al-Mg纳米冬冬催化剂用于生物质衍生的生物质衍生糠醛至呋喃氨酰乙酸酯

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摘要

Developing one-pot reaction methodologies, which typically require multifunctional catalyst systems, is crucial for sustainable production of bio-derived fuels and chemicals. This work reports one-pot hydrogenation-esterification of furfural to furfuryl acetate using a bifunctional metal-based nanohybrid catalyst, composed of rice husk (RH) derived SiO2, Cu, Al, and Mg species (RHSiO2-Cu-Al-Mg). For comparison, the catalytic efficiency of RHSiO2-Cu and RHSiO2-Cu-Al were tested under similar reaction conditions. Various analytical techniques were used to elucidate the physicochemical, textural, and acid-redox properties of the catalysts. It was found that the RHSiO2-Cu-Al-Mg catalyst contains an optimum amount of acid and redox sites, as illustrated by NH3-TPD and H-2-TPR studies, respectively. Especially, Mg addition played a vital role in tailoring acidity of the RHSiO2-Cu-Al catalyst to promote in-situ esterification of furfuryl alcohol with acetic acid to yield furfuryl acetate. As a result, the RHSiO2-Cu-Al-Mg catalyst exhibited the best performance in one-pot conversion of furfural to furfuryl acetate, outperforming various noble metal/silica based catalysts. This study offers potential opportunities for the rational design of novel, bifunctional heterogeneous catalysts for efficient production of bio-derived fuels and value added chemicals.
机译:培养通常需要多官能催化剂体系的单罐反应方法是对生物衍生燃料和化学品的可持续生产至关重要。使用双官能金属基纳米嗜催化剂将糠醛氢化 - 乙酸盐的单壶氢化 - 酯化的糠醛氢化 - 醋酸盐,由稻壳(RH)衍生的SiO 2,Cu,Al和Mg物种(Rhsio2-Cu-Al-Mg)组成。为了比较,在类似的反应条件下测试rhsio2-Cu和rhsio2-Cu-Al的催化效率。使用各种分析技术来阐明催化剂的物理化学,纹理和酸氧化还原性质。发现Rhsio2-Cu-Al-Mg催化剂含有最佳量的酸和氧化还原位点,如NH3-TPD和H-2-TPR研究所示。特别是,Mg加法在rhsio2-Cu-Al催化剂的纵向酸度方面发挥了至关重要的作用,以促进与乙酸的糠醇的原位酯化,得到乙酸糠醇。结果,RHSIO2-CU-Al-Mg催化剂在糠醛糠醛的单罐转化中表现出最佳性能,乙醋酸甲磺酰酯,优于各种贵金属/二氧化硅基催化剂。本研究提供了用于高效生产生物衍生的燃料和增值化学品的新型双官能异质催化剂的理性设计的潜在机会。

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  • 来源
    《Fuel》 |2020年第1期|117953.1-117953.8|共8页
  • 作者

    Hashim Luqman H.; Halilu Ahmed; Sudarsanam Putla; Umar Yahaya Balarabe; Bin Johan Mohd Rafie; Bhargava Suresh K.;

  • 作者单位

    Univ Malaya Nanotechnol & Catalysis Res Ctr NANOCAT Kuala Lumpur 50603 Malaysia;

    Univ Malaya Chem Engn Fac Engn Kuala Lumpur 50603 Malaysia;

    RMIT Univ Sch Sci Ctr Adv Mat & Ind Chem CAMIC Melbourne Vic 3001 Australia|Natl Chem Lab CSIR Catalysis & Inorgan Chem Div Dr Homi Bhabha Rd Pune 411008 Maharashtra India;

    Univ Leeds Sch Chem & Proc Engn Leeds LS2 9JT W Yorkshire England;

    Univ Malaya Nanotechnol & Catalysis Res Ctr NANOCAT Kuala Lumpur 50603 Malaysia|Univ Malaya Adv Mat Res Lab Dept Mech Engn Kuala Lumpur 50603 Malaysia;

    RMIT Univ Sch Sci Ctr Adv Mat & Ind Chem CAMIC Melbourne Vic 3001 Australia;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Bio-oil upgrading; One-pot furfural conversion; Bifunctional catalyst; Rice husk silica; Acid-redox sites;

    机译:生物油升级;一锅糠醛转化;双官能催化剂;稻壳二氧化硅;酸氧化还原位点;

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