天津大学化工学院导师介绍：苏荣欣_天津大学导师介绍

▶个人简介
苏荣欣，1980年生，福建泉州人，博士，天津大学特聘研究员，博士生导师。2011年入选教育部新世纪优秀人才计划，2012年入选天津大学首批北洋学者青年骨干教师计划。[1]
▶教育经历
2013/10—2014/10，美国加州大学圣巴巴拉分校，化工系/材料系，访问学者
2004/09—2007/06，天津大学，化学工程，博士生
2002/09—2004/06，天津大学，化学工程，硕士生
1998/09—2002/06，天津大学，化学工程与工艺，本科生[1]
▶工作经历
2014/10—至今，天津大学化学工程联合国家重点实验室，天津化学化工协同创新中心，特聘研究员，博士生导师
2010/08—至今，天津大学，化工学院，院长助理（研究生管理）
2009/06—2014/10，天津大学，化学工程联合国家重点实验室，副教授
2007/07—2009/06，天津大学，化学工程联合国家重点实验室，讲师[1]
▶讲授课程
分子设计与化工产品工程（本科生专业课）
分子设计与产品工程（本科生学位课）[2]
▶学术兼职
国家自然科学基金评审人、捷克国家基金评审人
美国化学会会员
国际期刊Frontiers in Bioenergy and Biofuel副主编
国际期刊Journal of Nanoscience Letters副主编
SCI期刊Biotechnology Biotechnological Equipment客座编辑[2]
▶荣誉奖励
2013年天津大学第六届我心目中的好导师
2013年天津市自然科学二等奖（排名第二）
2013年天津大学青年教工先锋岗
2012年天津大学北洋学者青年骨干教师
2012年天津大学宝舜奖教金
2012年湖南省自然科学一等奖
2011年教育部新世纪优秀人才
2011年国家科技兴检奖二等奖
2009年国家科技兴检奖三等奖
▶研究领域
一、生物质资源与能源（新能源）
重点开展秸秆、稻草、玉米芯等农林生物质转化为燃料乙醇及其它化学品的研究，正在承担国家自然科学基金、教育部优先发展项目、教育部新世纪优秀人才项目。
二、环境监测与治理（生物纳米材料）
开发各种新型生物纳米材料，实现食品及包装材料中有害物质的检测、环境污染物检测与纳米催化降解，目前承担国家重大科学仪器专项、国家863计划、国家科技支撑项目、科技部质检公益性项目。
三、药物蛋白质稳定性工程
针对胰岛素等重要药物蛋白质稳定性问题，通过外场或分子干扰等方法，建立各种药物蛋白质的稳定性方案，已完成国家自然科学基金等项目。
▶代表性项目
1、木质纤维素高固酶解过程扩散-吸附-反应的分析与调控，国家自然科学基金（21276192），2013.01-2016.12，项目负责人
2、金属纳米晶簇@多形态蛋白孔道：调控、机理与应用，国家自然科学基金（51473115），2015.01-2018.12，项目负责人
3、蛋白质酶解与超滤过程聚集行为的介微尺度研究，国家自然科学基金（20806057），2009.01-2011.12，项目负责人
4、纤维素酶高效水解与吸附回收的关键底物特性研究，国家自然科学基金（20976130），2010.01-2012.12，第一参加人
5、纤维素酶解过程调控与机理研究，教育部新世纪优秀人才计划，2012.01-2014.12，负责人
6、木质纤维素酶解过程研究，国家科技支撑子课题，负责人
7、国家863重大项目子课题（化学品专项），主要开展环境化学品光谱识别、纳米检测与消除，2012.01-2014.12，负责人
8、国家科技支撑计划重大项目子课题（食品安全专项），主要开展食品包装中危害因子的迁移与纳米检测，2012.01-2015.12，负责人
9、国家重大科学仪器专项子课题，光纤表面等离子共振H-SPR构建与应用，负责人[2]
▶发表文章
在JAFC、IECR、ACS Appl Mater Interfaces、Bioresourece Technology、Nanotechnology、Biotechnology Progress、Food Chemistry等国际期刊上发表SCI收录论文90余篇。近年发表的代表性SCI论文（第一作者或通讯作者*）：
2014年
[40] Huang RL,Cao M,Guo H,Qi W,Su RX*,He ZM. Enhanced ethanol production from pomelo peel waste by integrated hydrothermal treatment,multi-enzymes formulation and fed-batch operation.Journal of Agricultural and Food Chemistry,2014,62: 4643–4651. (JCR一区）
[39] Liang M,Su RX*,Huang RL,Qi W,Yu YJ,Wang LB,He ZM. Facile in situ synthesis of silver nanoparticles on procyanidin-grafted eggshell membrane and their catalytic properties.ACS Applied Materials Interfaces,2014,6: 4638–4649.（JCR一区）
[38] Liu X,Huang RL*,Su RX*,Qi W,Wang LB,He ZM. Grafting hyaluronic acid onto gold surface to achieve low protein fouling in surface plasmon resonance biosensors.ACS Applied Materials Interfaces,2014,6: 13034–13042. （JCR一区）
[37] Gao Z,Su RX*,Qi W,Wang LB,He ZM. Copper nanocluster-based fluorescent sensors for sensitive and selective detection of kojic acid in food stuff.Sensors Actuators: B. Chemical,2014,195: 359-364. （JCR一区）
[36] Liang M,Su RX*,Qi W,Zhang Y,Huang RL,Yu YJ,Wang LB,He ZM. Reduction of hexavalent chromium using recyclable Pt/Pd nanoparticles immobilized on procyanidin-grafted eggshell membrane.Industrial Engineering Chemistry Research,2014,53: 13635–13643. （JCR二区）
[35] Shang YP,Su RX*,Huang RL*,Yang Y,Qi W,Li QJ,He ZM. Recycling cellulases by pH-triggered adsorption-desorption during the enzymatic hydrolysis of lignocellulosic biomass.Applied Microbiology and Biotechnology,2014,98: 5765–5774. （JCR二区）
[34] Liang M,Su RX*,Qi W,Yu YJ,Wang LB,He ZM. Synthesis of well-dispersed Ag nanoparticles on eggshell membrane for catalytic reduction of 4-nitrophenol.Journal of Materials Science,2014,49: 1639-1647. （JCR二区）
[33] Gao Z,Su RX*,Huang RL,Qi W,He ZM. Glucomannan-mediated facile synthesis of gold nanoparticles for catalytic reduction of 4-nitrophenol.Nanoscale Research Letters,2014,9: 404. （JCR二区）
[32] Su YP,Du RY,Guo H,Cao M,Wu QF,Su RX*,Qi W,He ZM. Fractional pretreatment of lignocellulose by alkaline hydrogen peroxide: Characterization of its major components.Food and Bioproducts Processing,2014,doi: 10.1016/j.fbp.2014.04.001. （JCR二区）
[31] Guo H,He MX,Huang RL,Qi W,Guo WH,Su RX*,He ZM. Changes in supramolecular structures of cellulose after hydrolysis studied by terahertz spectroscopy and other methods.RSC Advances,2014,4 (101),57945 - 57952. 三区
[30] Zheng H,Su RX*,Gao Z,Qi W,Huang RL,Wang LB,He ZM. Magnetic-fluorescent nanocomposites as reusable fluorescence probes for sensitive detection of hydrogen peroxide and glucose.Analytical Methods,2014,6: 6352-6357. 三区
[29] Li W,Gao Z,Su RX*,Qi W,Wang LB,He ZM. Scissor-based fluorescent detection of pepsin using lysozyme-stabilized Au nanoclusters.Analytical Methods,2014,6: 6789-6795. 三区
2013年
[28] Liang M,Jin FM,Liu R,Su RX*,Qi W,Yu YJ,Wang LB,He ZM. Enhanced electrochemical detection performance of multiwall carbon nanotubes functionalized by aspartame.Journal of Materials Science,2013,48: 5624-5632. 二区
[27] Liang M,Wang LB,Su RX*,Qi W,Wang MF,Yu YJ,He ZM. Synthesis of silver nanoparticles within cross-linked lysozyme crystals as recyclable catalysts for 4-nitrophenol reduction.Catalysis Science Technology,2013,3: 1910-1914. 二区
[26] Zou LH,Qi W,Huang RL*,Su RX*,Wang MF,He ZM. Green synthesis of gold nanoparticle-nanoclusters composite nanostructures using trypsin as linking and reducing agent.ACS Sustainable Chemistry Engineering,2013,1: 1398–1404.
[25] Liang M,Huang RL,Su RX*,Qi W,Yu YJ,Wang LB,He ZM. Cross-linked lysozyme crystal templated synthesis ofAu nanoparticles as high-performance recyclable catalysts.Nanotechnology,2013,24: 245601. (JCR一区,IF 3.979)
[24] Liu R,Wang LB,Huang RL,Su RX*,Qi W,Yu YJ,He ZM. Self-assembled oligomericprocyanidin-insulin hybrid nanoparticles: A novel strategy for controllableinsulin delivery.Biomaterials Science,2013,1: 834-841. (RSC生物材料领域新刊)
[23] Liang M,Liu R,Qi W,Su RX*,Yu YJ,Wang LB,He ZM. Interaction between lysozyme and procyanidin: Multilevel structural nature and effect of carbohydrates. FOOD CHEMISTRY,2013,138: 1596-1603. (JCR二区,IF3.655)
[22]Su RX,Ma YY,Qi W,Zhang MJ,Wang F,Du RY,Yang JF,Zhang MH,He ZM. Ethanol production from high solids SSCF of alkaline pretreated corncob using recombinantZymomonas mobilisCP4. BIOENERGY RESEARCH,2013,6: 292-299. (JCR二区,IF 3.562)
[21] Liang M,Jin FM,Liu R,Yu YJ,Su RX*,Wang LB,Qi W,He ZM. Shape evolution and thermal stability of lysozyme crystals: Effect of pH and temperature. BIOPROCESS AND BIOSYSTEMS ENGINEERING,2013,36: 91-99. (二区，IF 1.809)
[20] Du RY,Huang RL,Su RX*,Zhang MJ,Wang MF,Yang JF,Qi W,He ZM. Enzymatic hydrolysis of lignocellulose: SEC-MALLS analysis and reaction mechanism. RSC ADVANCES,2013,3(6): 1871-1877.
2012年
[19] Liu R,Su RX*,Liang M,Huang RL,Wang MF,Qi W,He ZM. Physicochemical Strategies for Inhibition of Amyloid Fibril Formation: An Overview of Recent Advances. CURRENT MEDICINAL CHEMISTRY,2012,19: 4157-4174. (JCR二区,IF 4.859,药物蛋白质稳定性特邀综述)
[18]Su RX,Liang M,Qi W,Liu R,He ZM. Pancreatic hydrolysis of bovine casein: Peptide release and time-dependent reaction behavior. FOOD CHEMISTRY 2012,133: 857-864. (JCR二区,IF3.655)
[17] Du RY,Su RX*,Li X,Tantai XW,Liu ZH,Yang JF,Qi W,He ZM. Controlled adsorption of cellulase on pretreated corncob by pH adjustment. CELLULOSE 2012,19: 371-380. (JCR二区,IF3.600)
[16] Liu R,Su RX*,Yu YJ,Qi W,Wang LB,He ZM. Regeneration of insulin monomers from amyloid fibrils by NH3 H2O2 two-step method. BIOTECHNOLOGY LETTER 2012,34: 1959-1964. (IF 1.683)
[15] Yin WW,Su RX*,Qi W,He ZM. A casein-polysaccharide hybrid hydrogel cross-linked by transglutaminase for drug delivery. JOURNAL OF MATERIALS SCIENCE,2012,47: 2045-2055. (JCR二区,IF 2.015)
2011年
[14] Huang RL,Su RX*,Qi W,He ZM. Bioconversion of lignocellulose into bioethanol: Process intensification and mechanism research. BIOENERGY RESEARCH,2011,4: 225-245. (JCR二区,IF 3.562,燃料乙醇特邀综述)
[13] Zhang MJ,Su RX*,Qi W,He ZM. Enzymatic saccharification of pretreated corn stover in a fed-batch membrane bioreactor. BIOENERGY RESEARCH,2011,4: 134-140. (JCR二区,IF 3.562)
[12] Liu R,Su RX*,Qi W,He ZM. Photo-induced inhibition of insulin amyloid fibrillation on online laser measurement. BBRC,2011,409: 229-234. (IF 2.484)
2010年
[11] Zhang MJ,Wang F,Su RX*,Qi W,He ZM. Ethanol production from high dry matter corncob using fed-batch simultaneous saccharification and fermentation after combined pretreatment. BIORESOURCE TECHNOLOGY,2010,101: 4959-4964. (JCR一区,IF 4.980)
[10] Huang RL,Qi W,Su RX,He ZM. Integrating enzymatic and acid catalysis to convert glucose into 5-hydroxymethylfurfural. CHEMICAL COMMUNICATIONS 2010,46: 1115-1117. (JCR二区,IF 6.169)
[9] Zhang MJ,Qi W,Liu R,Su RX*,Shaomin Wu,He ZM. Fractionating lignocellulose by formic acid: characterization of major components. BIOMASS BIOENERGY,2010,34: 525-532. (JCR二区,IF 3.646)
[8] Huang RL,Su RX*,Qi W,He ZM. Understanding the key factors for enzymatic conversion of pretreated lignocellulose by partial least square analysis. BIOTECHNOLOGY PROGRESS,2010,26: 384-392. (JCR二区,IF 2.340)
[7] Zhang MJ,Su RX*,Qi W,He ZM. Enhanced enzymatic hydrolysis of lignocellulose by optimizing enzyme complexes. APPILIED BIOCHEMISTRY AND BIOTECHNOLOGY,2010,160: 1407-1414. (IF 1.943)
[6] Liu R,He MX,Su RX*,Yu YJ,Qi W,He ZM. Insulin amyloid fibrillation studied by terahertz spectroscopy and other biophysical methods. BBRC,2010,391: 862-867. (IF 2.484)
BEFORE 2009年
[5]Su RX,He ZM,Qi W. Pancreatic hydrolysis of bovine casein: Changes in the aggregate size and molecular weight distribution. FOOD CHEMISTRY 2008,107: 151-157. (JCR二区,IF3.655)
[4]Su RX,Qi W,He ZM,Zhang YB,Jin FM. Multilevel structural nature and interactions of bovine serum albumin during heat-induced aggregation process. FOOD HYDROCOLLOIDS 2008,22: 995-1005. (JCR二区,IF3.473)
[3]Su RX,Qi W,He ZM. Time-dependent nature in peptic hydrolysis of native bovine hemoglobin. EUROPEAN FOOD RESEARCH AND TECHNOLOGY 2007,225: 637-647. (IF 1.566)
[2] Qi W,Su RX(共同一作),He ZM. Pepsin-induced changes in the size and molecular weight distribution of bovine casein during enzymatic hydrolysis. JOURNAL OF DAIRY SCIENCE 2007,90: 5004-5011. (JCR 一区,IF 2.564)
[1]Su RX,Qi W,He ZM,Yuan SX,Zhang YB. Pancreatic hydrolysis of bovine casein: Identification and release kinetics of phosphopeptides. FOOD CHEMISTRY 2007,104: 276-286. (JCR二区,IF3.655)[2]

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