肖竹钱老师
作者:admin来源: 日期:2019-01-22 13:47:29人气:

 

肖竹钱,男,硕士,19904月生,浙江淳安人,2013年本科毕业于浙江海洋大学,2016年硕士毕业于浙江工业大学化学工程学院(与我校联合培养),学科方向为化学工程与技术,现为生物工程系教师,承担《工程制图与CAD》、《生物工程专业实验》等课程。研究方向为生物质生物化学制造、天然活性物提取与功能性评价,具体研究内容涉及木质纤维素生物质生物化学催化转化制绿色化学品、天然多糖提取与功能评价等。

近两年来,主持或作为主要参与者的省部级纵向研究项目2项;第一作者发表中文核心以上论文20篇,在领域内知名期刊《Fuel》(SCI二区,ZJU-Top850Catal. Lett.J. Energ Chem.》等发表SCI/EI收录10篇。作为领队或指导教师指导学生参加学科竞赛、创新创业大赛等实践课外实践,获国家级一等奖2项、省二等奖1项;国家级大学生创新创业训练项目1项、校级春萌项目3项等。

通讯地址:杭州市西湖区留和路318
联系电话:0571-85070390
E-mailzustxzq@zust.edu.cn
部分标志性研究成果:
[1] Zhuqian Xiao, et al. Metal particles supported on SiO2-OH nanosphere: new insight into interactions with metals for cellulose conversion to ethylene glycol[J]. Fuel, 2017, 215: 406-416. (SCI二区, ZJU-Top850, IF=4.9)
[2] Zhuqian Xiao, et al. Heterobimetallic Catalysis for Lignocellulose to Ethylene Glycol on Nickel-Tungsten Catalysts: Influenced by Hydroxy Groups[J]. Fuel, 2018, 230: 332-343. (SCI二区, ZJU-Top850, IF=4.9)
[3] Zhuqian Xiao, et al. Nickel-tungsten supported on thin carbon coated SiO2 nanosphere for cellulose conversion to lower polyols[J]. Catalysis Letters, 2018,148: 3757-3770. (IF=2.9)
[4] Zhuqian Xiao, et al. Self-reducing bifunctional Ni-W/SBA-15 catalyst for cellulose hydrogenolysis to low carbon polyols[J]. Journal of Energy Chemistry, 2016, 25: 434-444. (IF=3.8)
[5] Zhuqian Xiao, et al. One-pot selective conversion of cellulose into low carbon polyols on nano-Sn based catalysts[J]. Journal of Renewable and Sustainable Energy, 2017, 9: 1-11.
[6] Xiao Zhuqian, et al. Preparation of nano-scale nickel-tungsten catalysts by pH control and application in hydrogenolysis conversion of cellulose to polyols[J]. Journal of Fuel Chemistry and Technology, 2017, 45(6): 641-650.
[7] Zhuqian Xiao, et al. Plant lignocellulose-based feedstocks hydrogenolysis into polyols over a new efficient nickel-tungsten catalyst[J]. Asia-Pacific Journal of Chemical Engineering, 2017, 13(1): 2153-2164.
[8] Zhuqian Xiao, et al. Selective transformation of cellulose to C2-C3 polyols on M-W/SBA-15 (M = Ni, Pd, Zn, Cu) under low hydrogen pressure[J]. Earth and Environmental Science, 2017, 2017, 69: 12066-12075.
[9] Xiao Zhuqian, et al. One-pot catalytic agroforestry waste cellulose to polyols over self-reducing bifunctional catalysts[J]. Journal of Fuel Chemistry and Technology, 2015,43(12): 1446-1453.