3728-57-2Relevant articles and documents
Efficient hydro-deoxygenation of lignin derived phenolic compounds over bifunctional catalysts with optimized acid/metal interactions
Ju, Chao,Li, Mingrui,Fang, Yunming,Tan, Tianwei
supporting information, p. 4492 - 4499 (2018/10/24)
Efficient hydro-deoxygenation (HDO) of lignin derived phenolic compounds was a challenging task due to the incompatibility of the phenolic feedstock and the current hydro-processing catalysts. In this paper, hydro-deoxygenation of lignin derived phenolic compounds over a series of bifunctional catalysts with different metal/acid interactions was firstly carried out. It was found that the distance between the acidic site and noble metal played an important role in the catalytic performance of phenolic hydro-deoxygenation. A highly stable bifunctional catalyst for hydro-deoxygenation of lignin derived phenolic compounds was obtained through simple selective deposition of Pt on alumina in a commonly used Al2O3-ZSM-5 nanocomposite. The bifunctional catalyst retained its complete deoxygenation capacity for more than 500 h. The catalyst can also be used for the HDO of various phenolic model compounds and real bio-oil derived from lignin. A correction of the generally accepted the closer the better criterion in metal/acid bifunctional catalysts when used in bio-oxygenate HDO was also discussed.
Highly selective catalytic conversion of phenolic bio-oil to alkanes
Zhao, Chen,Kou, Yuan,Lemonidou, Angeliki A.,Li, Xuebing,Lercher, Johannes A.
experimental part, p. 3987 - 3990 (2009/09/08)
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