| 1 |
Heterogeneous Ni-Ru/H-ZSM-5 one-pot catalytic conversion of lignin into monophenols
Lin F, Ma YL, Sun YG, Zhao KH, Gao TT, Zhu YB
Renewable Energy, 170, 1070, 2021 |
| 2 |
Heterologous synthesis of 4-ethylphenol in engineered Escherichia coli
Zhang Y, Long LK, Ding SJ
Process Biochemistry, 96, 157, 2020 |
| 3 |
Shape selectivity vapor-phase conversion of lignin-derived 4-ethylphenol to phenol and ethylene over acidic aluminosilicates: Impact of acid properties and pore constraint
Liao YH, d'Halluin M, Makshina E, Verboekend D, Sels BF
Applied Catalysis B: Environmental, 234, 117, 2018 |
| 4 |
Synthesis of high-performance jet fuel blends from biomass-derived 4-ethylphenol and phenylmethanol
Li Z, Pan L, Nie GK, Xie JJ, Xie JW, Zhang XW, Wang L, Zou JJ
Chemical Engineering Science, 191, 343, 2018 |
| 5 |
Selective synthesis of p-ethylphenol by gas-phase alkylation of phenol with ethanol
Sad ME, Duarte HA, Padro CL, Apesteguia CR
Applied Catalysis A: General, 486, 77, 2014 |
| 6 |
Production of volatile phenols by Lactobacillus plantarum in wine conditions
Fras P, Campos FM, Hogg T, Couto JA
Biotechnology Letters, 36(2), 281, 2014 |
| 7 |
Mechanistic Studies of Anti-Hyperpigmentary Compounds: Elucidating Their Inhibitory and Regulatory Actions
Lam RYY, Lin ZX, Sviderskaya EV, Cheng CHK
International Journal of Molecular Sciences, 15(8), 14649, 2014 |
| 8 |
Selective production of 4-ethylphenolics from lignin via mild hydrogenolysis
Ye YY, Zhang Y, Fan J, Chang J
Bioresource Technology, 118, 648, 2012 |
| 9 |
Hydrodeoxygenation of 2-ethylphenol as a model compound of bio-crude over sulfided Mo-based catalysts: Promoting effect and reaction mechanism
Romero Y, Richard F, Brunet S
Applied Catalysis B: Environmental, 98(3-4), 213, 2010 |
| 10 |
Inactivation of wine spoilage yeasts Dekkera bruxellensis using low electric current treatment (LEC)
Lustrato G, Vigentini I, De Leonardis A, Alfano G, Tirelli A, Foschino R, Ranalli G
Journal of Applied Microbiology, 109(2), 594, 2010 |
