Stereoselective hydrogenation of guaiacol to cis-2-methoxycyclohexanol using supported rhodium catalysts in supercritical carbon dioxide

被引:1
作者
Yamaguchi, Aritomo [1 ]
Murakami, Yuka [1 ]
Yamazaki, Kiyoyuki [1 ]
Shirai, Masayuki [1 ,2 ]
Hiyoshi, Norihito [1 ]
机构
[1] Natl Inst Adv Ind Sci & Technol, Res Inst Chem Proc Technol, 4-2-1 Nigatake, Sendai 9838551, Japan
[2] Iwate Univ, Fac Sci & Engn, Dept Chem & Biol Sci, Chem Course, 4-3-5 Ueda, Morioka, Iwate 0208551, Japan
来源
CATALYSIS TODAY | 2024年 / 425卷
基金
日本学术振兴会;
关键词
Supercritical carbon dioxide; Supported rhodium catalyst; Hydrogenation; Guaiacol; Stereoselectivity; HYDRODEOXYGENATION; LIGNIN; TRANSFORMATION; CONVERSION; BIOMASS; METALS;
D O I
10.1016/j.cattod.2023.114356
中图分类号
O69 [应用化学];
学科分类号
081704 ;
摘要
Selective hydrogenation of lignin-derived phenolic monomer to valuable chemicals has attracted attention and investigated well; however, stereoselective hydrogenation is required for practical applications, and is still challenging. In this study, we examined the stereoselective hydrogenation of guaiacol to cis-2-methoxycyclohexanol over supported metal catalysts in several solvents at mild reaction conditions. Rh/C in supercritical CO2 gave a higher proportion of cis-2-methoxycyclohexanol in total 2-methoxycyclohexanol compared to water solvent. Finally, guaiacol could be stereoselectively hydrogenated to cis-2-methoxycyclohexanol with the yield 83.9 % (total 2-methoxycyclohexanol yield was 95.5 %) even at 313 K for 1 h using the Rh/C catalyst in supercritical CO2 (CO2 25 MPa, H2 1.5 MPa).
引用
收藏
页数:6
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  • [21] Ternary Alloys Enable Efficient Production of Methoxylated Chemicals via Selective Electrocatalytic Hydrogenation of Lignin Monomers
    Peng, Tao
    Zhuang, Taotao
    Yan, Yu
    Qian, Jin
    Dick, Graham R.
    de Bueren, Jean Behaghel
    Hung, Sung-Fu
    Zhang, Yun
    Wang, Ziyun
    Wicks, Joshua
    de Arquer, F. Pelayo Garcia
    Abed, Jehad
    Wang, Ning
    Rasouli, Armin Sedighian
    Lee, Geonhui
    Wang, Miao
    He, Daping
    Wang, Zhe
    Liang, Zhixiu
    Song, Liang
    Wang, Xue
    Chen, Bin
    Ozden, Adnan
    Lum, Yanwei
    Leow, Wan Ru
    Luo, Mingchuan
    Meira, Debora Motta
    Ip, Alexander H.
    Luterbacher, Jeremy S.
    Zhao, Wei
    Sargent, Edward H.
    [J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2021, 143 (41) : 17226 - 17235
  • [22] Catalytic Hydrodeoxygenation of Lignin-Derived Oxygenates: Catalysis, Mechanism, and Effect of Process Conditions
    Prabhudesai, Vallabh S.
    Gurrala, Lakshmiprasad
    Vinu, Ravikrishnan
    [J]. ENERGY & FUELS, 2022, 36 (03) : 1155 - 1188
  • [23] Kinetic and Thermodynamic Analysis of Guaiacol Hydrodeoxygenation
    Sulman, Alexandrina
    Maki-Arvela, Paivi
    Bomont, Louis
    Alda-Onggar, Moldir
    Fedorov, Vyacheslav
    Russo, Vincenzo
    Eranen, Kari
    Peurla, Markus
    Akhmetzyanova, Uliana
    Skuhrovcova, Lenka
    Tisler, Zdenek
    Grenman, Henrik
    Warna, Johan
    Murzin, Dmitry Yu.
    [J]. CATALYSIS LETTERS, 2019, 149 (09) : 2453 - 2467
  • [24] Hydrodeoxygenation of guaiacol over carbon-supported molybdenum nitride catalysts: Effects of nitriding methods and support properties
    Tyrone Ghampson, I.
    Sepulveda, Catherine
    Garcia, Rafael
    Radovic, Ljubisa R.
    Garcia Fierro, J. L.
    DeSisto, William J.
    Escalona, Nestor
    [J]. APPLIED CATALYSIS A-GENERAL, 2012, 439 : 111 - 124
  • [25] Ni nanoparticles entrapped in nickel phyllosilicate for selective hydrogenation of guaiacol to 2-methoxycyclohexanol
    Wang, Xun
    Zhu, Shanhui
    Wang, Sen
    Wang, Jianguo
    Fan, Weibin
    Lv, Yongkang
    [J]. APPLIED CATALYSIS A-GENERAL, 2018, 568 : 231 - 241
  • [26] Direct conversion of lignocellulosic biomass into aromatic monomers over supported metal catalysts in supercritical water
    Yamaguchi, Aritomo
    Watanabe, Tatsuya
    Saito, Kyota
    Kuwano, Satoko
    Murakami, Yuka
    Mimura, Naoki
    Sato, Osamu
    [J]. MOLECULAR CATALYSIS, 2019, 477
  • [27] Cascade Utilization of Biomass: Strategy for Conversion of Cellulose, Hemicellulose, and Lignin into Useful Chemicals
    Yamaguchi, Aritomo
    Mimura, Naoki
    Shirai, Masayuki
    Sato, Osamu
    [J]. ACS SUSTAINABLE CHEMISTRY & ENGINEERING, 2019, 7 (12) : 10445 - 10451
  • [28] Role of metal support during ru-catalysed hydrodeoxygenation of biocrude oil
    Yan, Penghui
    Mensah, Jim
    Drewery, Matthew
    Kennedy, Eric
    Maschmeyer, Thomas
    Stockenhuber, Michael
    [J]. APPLIED CATALYSIS B-ENVIRONMENTAL, 2021, 281
  • [29] The Catalytic Valorization of Lignin for the Production of Renewable Chemicals
    Zakzeski, Joseph
    Bruijnincx, Pieter C. A.
    Jongerius, Anna L.
    Weckhuysen, Bert M.
    [J]. CHEMICAL REVIEWS, 2010, 110 (06) : 3552 - 3599
  • [30] An investigation on the aqueous-phase hydrodeoxygenation of various methoxy-substituted lignin monomers on Pd/C and HZSM-5 catalysts
    Zhang, Cong
    Qi, Jingbo
    Xing, Jing
    Tang, Si-Fu
    Song, Liang
    Sun, Yuanyuan
    Zhang, Chuanhui
    Xin, Hongchuan
    Li, Xuebing
    [J]. RSC ADVANCES, 2016, 6 (106) : 104398 - 104406
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