1.
Catalytic cracking mechanism of bio-oil model compounds
by Ma, Wenchao
Transactions of the Chinese Society of Agricultural Engineering/Nongye Gongcheng Xuebao, May 2013, Vol.29(9), pp.207-213
2.
An efficient and economical process for lignin depolymerization in biomass-derived solvent tetrahydrofuran
by Long, Jinxing
Bioresource Technology, Feb, 2014, Vol.154, p.10(8)
3.
Hydrodeoxygenation of lignin-derived phenolic compounds to hydrocarbons over Ni/SiO.sub.2-ZrO.sub.2 catalysts.(Report)
by Zhang, Xinghua
Bioresource Technology, April, 2013, Vol.134, p.73(8)
4.
Hydrotreatment of bio-oil over Ni-based catalyst
by Zhang, Xinghua
Bioresource Technology, January 2013, Vol.127, pp.306-311
5.
Hydrotreatment of bio-oil over Ni-based catalyst.(Report)
by Zhang, Xinghua
Bioresource Technology, Jan, 2013, Vol.127, p.306(6)
6.
Hydrodeoxygenation of lignin-derived phenolic compounds to hydrocarbons over Ni/SiO2–ZrO2 catalysts
by Zhang, Xinghua
Bioresource Technology, April 2013, Vol.134, pp.73-80
7.
An efficient and economical process for lignin depolymerization in biomass-derived solvent tetrahydrofuran
by Long, Jinxing
Bioresource Technology, February 2014, Vol.154, pp.10-17
8.
Catalytic depolymerization of the hydrolyzed lignin over mesoporous catalysts
by Chen, Pengru
Bioresource Technology, February 2017, Vol.226, pp.125-131
9.
Efficient and product-controlled depolymerization of lignin oriented by metal chloride cooperated with Pd/C
by Shu, Riyang
Bioresource Technology, 2015, Vol.179, p.84(7)
10.
Hydrodeoxygenation of Methyl Palmitate over Supported Ni Catalysts for Diesel-like Fuel Production
by Zuo, Hualiang
Energy & Fuels, Jun 21, 2012, Vol.26(6), pp.3747-3755-3747-3755
11.
Insight into the solvent, temperature and time effects on the hydrogenolysis of hydrolyzed lignin
by Shu, Riyang
Bioresource Technology, December 2016, Vol.221, pp.568-575
12.
Efficient and product-controlled depolymerization of lignin oriented by metal chloride cooperated with Pd/C
by Shu, Riyang
Bioresource Technology, March 2015, Vol.179, pp.84-90
13.
Investigation on the structural effect of lignin during the hydrogenolysis process
by Shu, Riyang
Bioresource Technology, January 2016, Vol.200, pp.14-22
14.
Catalytic Upgrading of Bio-oil over Ni-Based Catalysts Supported on Mixed Oxides
by Zhang, Xinghua
Energy & Fuels, Apr 17, 2014, Vol.28(4), pp.2562-2570-2562-2570
15.
Promoting Hydrolytic Hydrogenation of Cellulose to Sugar Alcohols by Mixed Ball Milling of Cellulose and Solid Acid Catalyst
by Liao, Yuhe
Energy & Fuels, 09/18/2014, Vol.28(9), pp.5778-5784
16.
Direct degradation of cellulose to 5-hydroxymethylfurfural in hot compressed steam with inorganic acidic salts
by Shi, Ning
RSC Advances, 2014, Vol.4(10), pp.4978-4984
17.
High yield production of 5-hydroxymethylfurfural from cellulose by high concentration of sulfates in biphasic system
by Shi, Ning
Green Chemistry, 2013, Vol.15(7), pp.1967-1974
18.
Zirconium phosphate combined with Ru/C as a highly efficient catalyst for the direct transformation of cellulose to C 6 alditols
by Liao, Yuhe
Green Chemistry, 2014, Vol.16(6), pp.3305-3312
19.
Ultrasonic Preparation of Emulsions Derived from Aqueous Bio-oil Fraction and 0# Diesel and Combustion Characteristics in Diesel Generator
by Li, Yuping
Energy & Fuels, 03/18/2010, Vol.24(3), pp.1987-1995
20.
Production of cyclohexane from lignin degradation compounds over Ni/ZrO.sub.2-SiO.sub.2 catalysts
by Zhang, Xinghua
Applied Energy, Dec, 2013, Vol.112, p.533(6)
