Hydrodeoxygenation of water-insoluble bio-oil to alkanes using a highly dispersed Pd-Mo catalyst

Haohong Duan; Juncai Dong; Xianrui Gu; Yung Kang Peng; Wenxing Chen; Titipong Issariyakul; William K. Myers; Meng Jung Li; Ni Yi; Alexander F.R. Kilpatrick; Yu Wang; Xusheng Zheng; Shufang Ji; Qian Wang; Junting Feng; Dongliang Chen; Yadong Li; Jean Charles Buffet; Haichao Liu; Shik Chi Edman Tsang; Dermot O'Hare

doi:10.1038/s41467-017-00596-3

Hydrodeoxygenation of water-insoluble bio-oil to alkanes using a highly dispersed Pd-Mo catalyst

Haohong Duan, Juncai Dong, Xianrui Gu, Yung Kang Peng, Wenxing Chen, Titipong Issariyakul, William K. Myers, Meng Jung Li, Ni Yi, Alexander F.R. Kilpatrick, Yu Wang, Xusheng Zheng, Shufang Ji, Qian Wang, Junting Feng, Dongliang Chen, Yadong Li, Jean Charles Buffet, Haichao Liu, Shik Chi Edman Tsang^*Dermot O'Hare

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

126 Citations (Scopus)

Abstract

Bio-oil, produced by the destructive distillation of cheap and renewable lignocellulosic biomass, contains high energy density oligomers in the water-insoluble fraction that can be utilized for diesel and valuable fine chemicals productions. Here, we show an efficient hydrodeoxygenation catalyst that combines highly dispersed palladium and ultrafine molybdenum phosphate nanoparticles on silica. Using phenol as a model substrate this catalyst is 100% effective and 97.5% selective for hydrodeoxygenation to cyclohexane under mild conditions in a batch reaction; this catalyst also demonstrates regeneration ability in long-term continuous flow tests. Detailed investigations into the nature of the catalyst show that it combines hydrogenation activity of Pd and high density of both Brønsted and Lewis acid sites; we believe these are key features for efficient catalytic hydrodeoxygenation behavior. Using a wood and bark-derived feedstock, this catalyst performs hydrodeoxygenation of lignin, cellulose, and hemicellulose-derived oligomers into liquid alkanes with high efficiency and yield.

Original language	English
Article number	591
Journal	Nature Communications
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41467-017-00596-3
Publication status	Published - 1 Dec 2017
Externally published	Yes

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Duan, H., Dong, J., Gu, X., Peng, Y. K., Chen, W., Issariyakul, T., Myers, W. K., Li, M. J., Yi, N., Kilpatrick, A. F. R., Wang, Y., Zheng, X., Ji, S., Wang, Q., Feng, J., Chen, D., Li, Y., Buffet, J. C., Liu, H., ... O'Hare, D. (2017). Hydrodeoxygenation of water-insoluble bio-oil to alkanes using a highly dispersed Pd-Mo catalyst. Nature Communications, 8(1), Article 591. https://doi.org/10.1038/s41467-017-00596-3

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title = "Hydrodeoxygenation of water-insoluble bio-oil to alkanes using a highly dispersed Pd-Mo catalyst",

abstract = "Bio-oil, produced by the destructive distillation of cheap and renewable lignocellulosic biomass, contains high energy density oligomers in the water-insoluble fraction that can be utilized for diesel and valuable fine chemicals productions. Here, we show an efficient hydrodeoxygenation catalyst that combines highly dispersed palladium and ultrafine molybdenum phosphate nanoparticles on silica. Using phenol as a model substrate this catalyst is 100% effective and 97.5% selective for hydrodeoxygenation to cyclohexane under mild conditions in a batch reaction; this catalyst also demonstrates regeneration ability in long-term continuous flow tests. Detailed investigations into the nature of the catalyst show that it combines hydrogenation activity of Pd and high density of both Br{\o}nsted and Lewis acid sites; we believe these are key features for efficient catalytic hydrodeoxygenation behavior. Using a wood and bark-derived feedstock, this catalyst performs hydrodeoxygenation of lignin, cellulose, and hemicellulose-derived oligomers into liquid alkanes with high efficiency and yield.",

author = "Haohong Duan and Juncai Dong and Xianrui Gu and Peng, {Yung Kang} and Wenxing Chen and Titipong Issariyakul and Myers, {William K.} and Li, {Meng Jung} and Ni Yi and Kilpatrick, {Alexander F.R.} and Yu Wang and Xusheng Zheng and Shufang Ji and Qian Wang and Junting Feng and Dongliang Chen and Yadong Li and Buffet, {Jean Charles} and Haichao Liu and Tsang, {Shik Chi Edman} and Dermot O'Hare",

note = "Publisher Copyright: {\textcopyright} 2017 The Author(s).",

year = "2017",

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doi = "10.1038/s41467-017-00596-3",

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Duan, H, Dong, J, Gu, X, Peng, YK, Chen, W, Issariyakul, T, Myers, WK, Li, MJ, Yi, N, Kilpatrick, AFR, Wang, Y, Zheng, X, Ji, S, Wang, Q, Feng, J, Chen, D, Li, Y, Buffet, JC, Liu, H, Tsang, SCE & O'Hare, D 2017, 'Hydrodeoxygenation of water-insoluble bio-oil to alkanes using a highly dispersed Pd-Mo catalyst', Nature Communications, vol. 8, no. 1, 591. https://doi.org/10.1038/s41467-017-00596-3

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T1 - Hydrodeoxygenation of water-insoluble bio-oil to alkanes using a highly dispersed Pd-Mo catalyst

AU - Duan, Haohong

AU - Dong, Juncai

AU - Gu, Xianrui

AU - Peng, Yung Kang

AU - Chen, Wenxing

AU - Issariyakul, Titipong

AU - Myers, William K.

AU - Li, Meng Jung

AU - Yi, Ni

AU - Kilpatrick, Alexander F.R.

AU - Wang, Yu

AU - Zheng, Xusheng

AU - Ji, Shufang

AU - Wang, Qian

AU - Feng, Junting

AU - Chen, Dongliang

AU - Li, Yadong

AU - Buffet, Jean Charles

AU - Liu, Haichao

AU - Tsang, Shik Chi Edman

AU - O'Hare, Dermot

PY - 2017/12/1

Y1 - 2017/12/1

N2 - Bio-oil, produced by the destructive distillation of cheap and renewable lignocellulosic biomass, contains high energy density oligomers in the water-insoluble fraction that can be utilized for diesel and valuable fine chemicals productions. Here, we show an efficient hydrodeoxygenation catalyst that combines highly dispersed palladium and ultrafine molybdenum phosphate nanoparticles on silica. Using phenol as a model substrate this catalyst is 100% effective and 97.5% selective for hydrodeoxygenation to cyclohexane under mild conditions in a batch reaction; this catalyst also demonstrates regeneration ability in long-term continuous flow tests. Detailed investigations into the nature of the catalyst show that it combines hydrogenation activity of Pd and high density of both Brønsted and Lewis acid sites; we believe these are key features for efficient catalytic hydrodeoxygenation behavior. Using a wood and bark-derived feedstock, this catalyst performs hydrodeoxygenation of lignin, cellulose, and hemicellulose-derived oligomers into liquid alkanes with high efficiency and yield.

AB - Bio-oil, produced by the destructive distillation of cheap and renewable lignocellulosic biomass, contains high energy density oligomers in the water-insoluble fraction that can be utilized for diesel and valuable fine chemicals productions. Here, we show an efficient hydrodeoxygenation catalyst that combines highly dispersed palladium and ultrafine molybdenum phosphate nanoparticles on silica. Using phenol as a model substrate this catalyst is 100% effective and 97.5% selective for hydrodeoxygenation to cyclohexane under mild conditions in a batch reaction; this catalyst also demonstrates regeneration ability in long-term continuous flow tests. Detailed investigations into the nature of the catalyst show that it combines hydrogenation activity of Pd and high density of both Brønsted and Lewis acid sites; we believe these are key features for efficient catalytic hydrodeoxygenation behavior. Using a wood and bark-derived feedstock, this catalyst performs hydrodeoxygenation of lignin, cellulose, and hemicellulose-derived oligomers into liquid alkanes with high efficiency and yield.

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JO - Nature Communications

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Hydrodeoxygenation of water-insoluble bio-oil to alkanes using a highly dispersed Pd-Mo catalyst

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