张玺铭
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个人简历
张玺铭研究员,博士生导师,浙江大学农业生物环境工程所副所长,浙江大学“百人计划”引进人才。长期从事生物质高值转化研发工作。在领域权威期刊Applied Catalysis B:Environmental,Green Chemistry,ACS Sustainable Chemistry&Engineering,Biotechnology for Biofuels,Bioresource Technology,Journal of Cleaner Production发表SCI论文20余篇(IF>15 1篇,IF>5 14篇,ZJU100 6篇),著作1篇,申请美国专利保护2项,中国专利4项。主持或主参浙江省自然科学基金、国家自然科学基金、重大横向、浙江省重点研发计划等科研项目10余项。\r教育经历\r2012-2015美国普渡大学农业与生物工程博士导师:Nathan S.Mosier教授\r2010-2012美国北卡罗来纳州立大学生物与农业工程硕士导师:Jay J.Cheng教授\r2006-2010沈阳农业大学农业生物环境与能源工程学士\r工作经历\r2017-至今浙江大学生物系统工程与食品科学学院研究员博士生导师\r2015-2017美国普渡大学可再生资源工程中心(LORRE)博士后合作导师:Nathan S.Mosier教授\r获奖荣誉\r1.浙江大学“百人计划”引进人才\r2.Awards of Indiana Bicentennial Torch Design,State of Indiana,USA,2017\r3.美国能源部Center for Direct Catalytic Conversion of Biomass to Biofuel基金获得者,2014\r4.普渡大学工程学院基金获得者,2014\r著作章节\rZhang,X.,Athmanathan,A.,Mosier,N.*Biochemical conversion of biomass to biofuels.Valorization of lignocellulosic biomass in a biorefinery:From logistics to environmental and performance impact.2016,79-142.Nova Science Publishers,Inc.ISBN:978-1-63485-843-4.\r招聘信息\r浙江大学张玺铭研究员课题组现招聘博士后1-2名,主要从事功能性生物炭和生物质精炼相关研究。浙江大学农业工程学科为“双一流”建设学科,为教育部第四轮学科评估“A+”序列学科和浙江大学高峰建设学科。\r一、招聘条件\r1.年龄在35周岁以下,获得化学、材料、能源和食品相关专业的博士学位;\r2.熟练掌握相关实验表征、测试技术;\r3.以第一作者发表高水平研究论文一篇及以上;\r4.责任心强,有团队合作精神,具有较好的英文读写能力。\r二、岗位待遇\r1.工资及福利待遇按浙江大学博士后相关规定执行,详见浙大博士后官网(http://hr.zju.edu.cn/postdoctor/);视工作绩效另提供科研奖励;\r2.可申请入住教师公寓,博士后研究人员的未成年子女在入托、入学时享受暂住地常住居民的同等待遇;\r3.支持申请国家自然科学基金、博士后科学基金、“博新计划”等;\r4.博士后出站考核优秀者有机会入选学校特聘研究员或特聘副研究员,详见学校相应的规章政策。\r三、应聘材料\r1.详细个人简历、2封推荐信;\r2.代表性论著的全文。\r符合招聘岗位要求且有意向者,请将应聘材料发。请将主题注明“博士后申请+姓名”。\r科研\r张玺铭研究员主要研究领域包括生物质炭基催化剂、生物质多组分精炼、生物基材料研发。\r部分主持与主参项目\r1.国家自然科学基金面上项目“基于秸秆纤维素纳米晶须及水热炭微球的聚乳酸复合材料制备与性能调控研究”(2020-2023),主参。\r2.浙江省自然科学基金青年项目“基于三氟乙酸溶胀与马来酸-氯化铝协同催化秸秆制备高附加值化学品”(2019-2021),主持。\r3.浙江大学百人计划启动基金“基于仿生催化的秸秆资源化利用”(2017-2023),主持。\r4.Indiana Soybean Alliance'Green Process for Making Plasticizers from High Oleic Soybean Oil',IN,USA(2015-2018),主参。\r5.Indiana Corn Marketing Council'Renewable Acid-hydrolysis Condensation Hydrotreating(REACH)Pilot Plant Project',IN,USA(2013-2018),主参。\r6.Indiana Corn Marketing Council'Streamlining Corn Stover for Jet Fuel Production',IN,USA(2015-2017),主参。\r7.U.S.Department of Energy'Direct Catalytic Conversion of Biomass to Biofuels(First Round)',USA(2012-2014),主参。\r8.U.S.Department of Energy'Direct Catalytic Conversion of Biomass to Biofuels(Second Round)',USA(2014-2018),主参。\r教学与课程\r本科生课程:\r生物质能源与可持续利用(通识课)\r可再生能源工程\r研究生课程:\r生物质利用技术专题(博士)\r生物质资源综合利用(硕士)\r学术交流(讲座报告)\r部分大会报告\r1.(大会报告)Ximing Zhang,et al.,'Characterization of TFA Regenerated Cellulose with a Two Step Treatment to Understand the Impact of Cellulose Structure on Hydrolysis',2016 American Institute of Chemical Engineers(AIChE),San Francisco,USA,Nov.11-14,2016.\r2.(大会报告)Ximing Zhang,et al.,'Reaction Mechanism and Kinetics of Maleic Acid for Altering the Selectivity of Glucose Dehydration and Degradation',2014 American Institute of Chemical Engineers(AIChE),Atlanta,USA,Nov.16-21,2014.\r3.(大会报告)Ximing Zhang,et al.,'Kinetics of 5-(hydroxymethyl)Furfural Production From Aqueous Glucose Solution by Using AlCl3 Combined With Brönsted Acid Catalysts',2013 American Institute of Chemical Engineers(AIChE),San Francisco,USA,Nov.3-8,2013.\r4.(大会报告)Ximing Zhang,et al.,'Pretreatment of Corn Stover for Enzymatic Saccharification Improvement by Using the Combination of Alkaline Reagents at Mild Temperatures',2012 American Society of Agricultural and Biological Engineers(ASABE),Dallas,Texas,USA,Jul.29-Aug1,2012.\r5.(特邀报告)Ximing Zhang,et al.,'Effect of Maleic Acid on the Selectivity on the Dehydration and Degradation of Glucose and Fructose',2014 BASF Energy.研究领域
"""""长期致力于生物质高值转化研究,主要研究领域为功能性炭材料、生物质精炼和生物基高值化学品研发。"近期论文
部分SCI期刊论文25.Jin,C.,Xiang,N.,Zhu,X.,E,S.,Sheng,K.,Zhang,X.*Selective 5-hydroxymethylfurfural production from cellulose formate in DMSO-H2O media.Applied Catalysis B:Environmental,2020,119799.(IF5=14.846)24.Zhang,S.,Yu,Y.,Sheng,K.,Liu,J.,E,S.,Zhang,X.*Lignocellulosics catalytic valorization:from bulk biofuels to value-added chemicals.Biofuels,Bioproducts&Biorefining,2020.DOI:(IF5=4.612)23.Xu,Z.,Zhang,X.,Li,K.,Lin,H.,Qian,X.,Sheng,K.*Green synthesis of Fe-decorated carbon-sphere/nanosheet derived from bamboo for high-performance supercapacitor application.Energy&Fuels,2020.DOI:(IF5=3.715,ZJU100)22.Zhang S.,Sheng,K.,Yan,W.,Liu,J,E,S.,Yang,M.,Zhang,X.*Bamboo derived hydrochar microspheres fabricated by acid-assisted hydrothermal carbonization.Chemosphere,2020.DOI:10.1016/j.chemosphere.2020.128093(IF5=5.705)21.Xu,Z.,#Zhang,X.,#Liang,Y.,Lin,H.,Zhang,S.,Liu,J.,Jin,C.,Choe,U.,Sheng,K.*Green synthesis of nitrogen-doped porous carbon derived from rice straw for high-performance supercapacitor application.Energy&Fuels,2020.DOI:10.1021/acs.energyfuels.0c01346(#共同一作)(IF5=3.715,ZJU100)20.Zhang,S.,Sheng,K.,Liang,Y.,Liu,J.,E,S.,Zhang.,X.*Green synthesis of aluminum-hydrochar for the selective isomerization of glucose to fructose.Science of the Total Environment,2020.DOI:10.1016/j.scitotenv.2020.138743(IF5=6.419)19.Jin,C.,Yang,M.,E,S.,Liu,J.,Zhang,S.,Zhang,X.,Sheng,K.,Zhang,X.*Corn stover valorization by one-step formic acid fractionation and formylation for 5-hydroxymethylfurfural and high guaiacyl lignin production.Bioresource Technology,2020,DOI:10.1016/j.biortech.2019.122586.(IF5=7.270)18.Zhang,S.,Liu,J.,E,S.,Jin,C.,Xu,Z.,Zhang,X.*Hydrothermal Carbonization of Cellulose and Xylan into Hydrochars and Application on Glucose Isomerization.Journal of Cleaner Production,2019,237:117831.(IF5=7.491)17.Liu,J.,Zhang,S.,Jin,C.,E,S.,Sheng,K.,Zhang,X.*Effect of Swelling Pretreatment on Properties of Cellulose-Based Hydrochar.ACS Sustainable Chemistry&Engineering,2019.DOI:10.1021/acssuschemeng.9b01640(IF5=7.741)16.Yang,M.,Jin,C.,E,S.,Liu,J.,Zhang,S.,Liu,Q.,Sheng,K.,Zhang,X.*Fenton Reaction-Modified Corn Stover To Produce Value-Added Chemicals by Ultralow Enzyme Hydrolysis and Maleic Acid and Aluminum Chloride Catalytic Conversion.Energy&Fuels,2019.DOI:10.1021/acs.energyfuels.9b0098(IF5=3.715,ZJU100)15.Yang,H.,Zhang,X.,Luo,H.,Liu,B.,Shiga,T.,Mosier,N.,Mccann,M.,Carpita,N.,Meilan,R.Overcoming cellulose recalcitrance in woody biomass for the lignin-first biorefinery.Biotechnology for Biofuels,2019,12:171.(IF5=5.473)14.Zhang,X.,Burchell,J.,Mosier,N.*Enzymatic epoxidation of high oleic soybean oil.ACS Sustainable Chemistry&Engineering,2018,6(7),8578-8583.(IF5=7.741)13.Zhang,X.,Qu,T.,Mosier,N.,Han,L.,Xiao,W.*Cellulose modification by recyclable swelling solvents.Biotechnology for Biofuels,2018,DOI:10.1186/s13068-018-1191-z.(IF5=5.473)12.Qu,T.#,Zhang,X.#,Gu,X.,Han,L.,Ji,G.,Chen,X.,Xiao,W.*Ball milling for biomass fractionation and pretreatment with aqueous hydroxide solutions.ACS Sustainable Chemistry&Engineering,2017,5(9),7733-7742.(#共同一作)(IF5=7.741)11.Zhang,X.,Eren,N.,Kreke,T.,Mosier,N.,Engelberth,A.,Kilaz,G.*Concentrated HCl catalyzed 5-(chloromethyl)furfural production from corn stover of varying particle sizes.Bioenergy Research,2017,10(3),1-7.(IF5=2.741)10.Tabar,I.,Zhang,X.,Youngblood,J.,Mosier,N.*Production of cellulose nanofibers using phenolic enhanced surface oxidation.Carbohydrate Polymers,2017,174,120-127.(IF5=6.890)9.Shiga,T.#,Xiao,W.#,Yang,H.,Zhang,X.,Olek,A.,Donohoe,B.,Mosier,N.*Enhanced rates of enzymatic saccharification and catalytic synthesis of biofuel substrates in gelatinized cellulose generated by trifluoroacetic acid.Biotechnology for Biofuels,2017,10(1),310.(IF5=5.473)8.Perras,F.#,Luo,H.#,Zhang,X.,Mosier,N.,Pruski,M.,Abu-Omar,M.*Atomic-level structure characterization of biomass pre-and post-lignin treatment by dynamic nuclear polarization-enhanced solid-state NMR.Journal of Physical Chemistry A,2017,121(3),623-630.(IF5=2.581)7.Zhang,X.,Murria,P.,Jiang,Y.,Xiao,W.,Kenttamaa,H.,Abu-Omar,M.,Mosier,N.*Maleic acid and aluminum chloride catalyzed conversion of glucose to 5-(hydroxymethyl)furfural and levulinic acid in aqueous media.Green Chemistry,2016,18(19),5219-5229.(IF5=9.707)6.Hewetson,B.,Zhang,X.,Mosier,N.*Enhanced acid-catalyzed biomass conversion to hydroxymethylfurfural following cellulose solvent-and organic solvent-based lignocellulosic fractionation pretreatment.Energy&Fuels,2016,30(11),9975-9977.(IF5=3.715,ZJU100)5.Zhang,X.,Hewetson,B.,Mosier,N.*Kinetics of maleic acid and aluminum chloride catalyzed dehydration and degradation of glucose.Energy&Fuels,2015,29,(4),2387-2393.(IF5=3.715,ZJU100)4.Xiao,W.,Zhang,X.,Wang,X.,Niu,W.,Han,L.*Rapid liquefaction of corn stover with microwave heating.Bioresources,2015,10(3),4038-4047.(IF5=1.520)3.Zhang,X.,Xu,J.,Cheng,J.*Pretreatment of corn stover for sugar production with combined alkaline reagents.Energy&Fuels,2013,25,(10),4796-4802.(IF5=3.715,ZJU100)2.Xu,J.,Zhang,X.,Cheng,J.*Pretreatment of corn stover for sugar production with switchgrass-derived black liquor.Bioresource Technology,2013,111,256-260.(IF5=7.270)1.Xu,J.,Zhang,X.,Sharmashivappa,R.,Eubanks,M.*Gamagrass varieties as potential feedstock for fermentable sugar production.Bioresource Technology,2013,116(5),540-544.(IF5=7.270)2020年08月-至今,海外华人农业生物与食品工程师协会 (AOCBFE)Board Member 2020年08月-至今,中国农业机械学会能源动力分会委员2020年05月-至今,嘉兴市科技特派员2019年07月-至今,中国农业工程学会高级会员2015年08月-至今,美国化学学会会员2013年11月-至今,美国化学工程师学会会员2011年08月-至今,美国农业与生物工程师学会会员标签: 浙江大学 生物系统工程与食品科学学院
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