Glucose-derived carbon-coated Ni–In intermetallic compounds for in situ aqueous phase selective hydrogenation of methyl palmitate to hexadecanol
Author:
Funder
National Natural Science Foundation of China
Publisher
Springer Science and Business Media LLC
Subject
Physical and Theoretical Chemistry,Catalysis
Link
https://link.springer.com/content/pdf/10.1007/s11144-022-02221-x.pdf
Reference35 articles.
1. He L, Cheng H, Liang G, Yu Y, Zhao F (2013) Effect of structure of CuO/ZnO/Al2O3 composites on catalytic performance for hydrogenation of fatty acid ester. Appl Catal A 452:88–93
2. Zhang Z, Zhou F, Chen K, Fu J, Lu X, Ouyang P (2017) Catalytic in situ hydrogenation of fatty acids into fatty alcohols over Cu-based catalysts with methanol in hydrothermal media. Energy Fuels 31:12624–12632
3. Liu X, Yang M, Deng Z, Dasgupta A, Guo Y (2021) Hydrothermal hydrodeoxygenation of palmitic acid over Pt/C catalyst: mechanism and kinetic modeling. Chem Eng J 407:126332
4. Wang J, Xu L, Nie R, Lyu X, Lu X (2020) Bifunctional CuNi/CoOx catalyst for mild-temperature in situ hydrodeoxygenation of fatty acids to alkanes using isopropanol as hydrogen source. Fuel 265:116913
5. Gilkey MJ, Xu B (2016) Heterogeneous catalytic transfer hydrogenation as an effective pathway in biomass upgrading. ACS Catal 6:1420–1436
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1. Low-cost bio-waste carbon nanocomposites for sustainable electrochemical devices: A systematic review;Materials Today Communications;2024-03
2. Steam reforming of methanol on highly stable MgO–Al2O3 supported Ni–In intermetallic compounds;International Journal of Hydrogen Energy;2023-10
3. Metal–organic framework-derived carbon coated Ni–In intermetallic compounds for in-situ selective hydrogenation of methyl palmitate to hexadecanol in aqueous phase using methanol as hydrogen donor;Reaction Kinetics, Mechanisms and Catalysis;2023-06-16
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