一、个人基本资料
姓名:张超群
性别:男
出生年月:1986.10
籍贯:湖北黄梅
职位:首聘教授
二、亚博平台下载的联系方式
邮箱:nwpuzcq@gmail.com
通讯地址:广州市天河区五山路483号,华南农业大学材料与能源学院
邮编: 510642
个人网站:http://greenpolymercomposites.weebly.com/
三、个人简述
张超群,博士、教授、硕士生导师,2018年广东省杰出青年科学基金获得者。2014年获得美国爱荷华州立大学材料科学与工程专业博士学位。2014-2016在美国德州农工大学等研究机构从事博士后研究。2016年6月作为海外高层次人才被引进到华南农业大学材料与能源学院。研究工作主要是生物质的高效转化和功能高分子材料可控构建的相关基础理论和核心技术。近三年主持国家自然科学基金、广东省自然自然科学杰出基金、广州市科技计划民生科技攻关计划等项目10项。近三年在progress in polymer science, advanced materials, green chemistry, acs applied materials & interface, journal of materials chemistry a等国际著名学术刊物上发表sci收录的学术论文37篇(其中第一作者或者通讯作者论文30篇, 总影响因子达到130,影响因子5以上的文章10篇),论文总被引频次达 728次, 2篇论文作为期刊封面论文被重点报道 (一篇被advanced materials选为正封面,另外一篇被acs sustainable chemical and engineering选为正封面)。撰写本领域英文专著1部。获授权美国专利3项,申请美国专利和中国专利6项。申报人多次在国际国内学术会议上作口头邀请报告,并将以组织委员身份负责第五届全国涂料科学与技术会议的筹备和组织工作。先后受邀担任30多个著名国际学术期刊的审稿人。
四、教育背景
2011.08 – 2014.05 美国爱荷华州立大学,材料科学与工程博士,导师:michael kessler
2008.09 – 2011.03 西北工业大学,材料科学硕士,导师:张立同院士
2004.09 – 2008.06 华中科技大学材料成型及其控制工程
五、工作经历
2016.06 – 至今 华南农业大学,材料与能源学院,教授/硕导
2015.05 – 2016.05 美国德州农工大学,博士后
2014.08 – 2015.05 美国明尼苏达大学,博士后
2014.05 – 2014.08 美国爱荷华州立大学,博士后
六、科研方向
1. 生物基小分子的精准转化和高效利用
2. 生物基高分子材料的可控构建与性能表征
3. 绿色多功能高分子复合材料的宏量组装和制备
4. 高分子复合材料的可控降解设计与应用
七、科研论著
著作:
1. bio-based plant oil polymers and composites.elsevier, 9780323358330.2015.sa madbouly, c zhang, mr kessler.
代表性论文 (*通讯作者):
1. c zhang, tf garrison, sa madbouly, mr kessler*. recent advances in vegetable oil-based polymers and their composites. 2017.progress in polymer science. 2017. doi: 10.1016/j.progpolymsci.2016.12.009.
2. c zhang, da mcadams, jc grunlan*. nano/micro‐manufacturing of bioinspired materials: a review of methods to mimic natural structures. 2016. advanced materials. 28 (30), 6265-6265. (cover paper)
3. c zhang, y xia, r chen, s huh, pa johnston, mr kessler*. soy-castor oil based polyols prepared using a solvent-free and catalyst-free method and polyurethanes therefrom, green chemistry, 2013, 15 (6), 1477-1484.
4. c zhang, r ding, mr kessler*. reduction of epoxidized vegetable oils: a novel method to prepare bio-based polyols for polyurethanes, macromolecular rapid communications, 2014, 35 (11), 1068−1074.
5. c zhang, y li, r chen, mr kessler*. polyurethanes from solvent-free vegetable oil-based polyols, acs sustainable chemistry & engineering. 2014, 2 (10), 2465−2476.
6. c zhang, sa madbouly, mr kessler*. biobased polyurethanes prepared from different vegetable oils, acs applied materials & interfaces. 2015, 7 (2), 1226-1233.
7. r chen, c zhang, mr kessler*. polyols and polyurethanes prepared from epoxidized soybean oil ring-opened by polyhydroxy fatty acids with varying oh numbers. journal of applied polymer science. 2015, doi: 10.1002/app.41213.
8. r chen, js chen, c zhang, mr kessler*. rapid room-temperature polymerization of bio-based multiaziridine-containing compounds. rsc advances. 2014, 5 (2), 1557-1563.
9. c zhang, mr kessler*. bio-based polyurethane foam made from compatible blends of vegetable oil-based polyol and petroleum-based polyol. acs sustainable chemistry & engineering, 2015, 3(4), 743-749. (cover paper)
10. c zhang, h wu, mr kessler*. high bio-content polyurethane composites with urethane modified lignin as filler. polymer. 2015. 69, 52-57.
11.c zhang, dk schneiderman, t cai, ys tai, k fox, k zhang*. optically active β-methyl-δ-valerolactone: biosynthesis and polymerization. 2016. acs sustainable chemistry & engineering, 4 (8), 4396-4402.
12. yechang feng, haiyan liang, ziming yang, teng yuan, ying luo, puwang li, zhuohong yang*, chaoqun zhang*. a solvent-free and scalable method to prepare soybean oil based polyols by thiol-ene photo-click reaction and biobased polyurethanes therefrom. acs sustainable chemistry & engineering, 2017, 5 (8), 7365-7373.
13. jiajian huang, teng yuan, xiyun ye, limin man, chuang zhou, yang hu, chaoqun zhang*, zhuohong yang*. study on the uv curing behavior of tung oil: mechanism, curing activity and film-forming property. industrial crops and products, 2018 112, 61-69.
14. haiyan liang, lingxiao liu, jingyi lu, moutong chen, chaoqun zhang⁎, castor oil-based cationic waterborne polyurethane dispersions: storage stability, thermo-physical properties and antibacterial properties. industrial crops & products. 2018, 117, 169-178.
15. lingxiao liu, haiyan liang jing zhang, pengfei zhang, quan xu, qiming lu⁎, chaoqun zhang⁎. pva/chitosan composites: physically transient materials for sustainable and transient bioelectronics. journal of cleaner production. 2018, 195, 786-795.
16. haiyan liang, shanwen wang, heng he, mengqi wang, lingxiao liu, jingyi lu, yi zhang, chaoqun zhang⁎. aqueous anionic polyurethane dispersions from castor oil. industrial crops and products. 2018, 122, 182-189.
17. dunsheng liang, lingxiao liu, haiyan liang, rafael l. quirino, jie chen, minghui liu, qiming lu*, chaoqun zhang*.tunable thermo-physical performance of castor oil-based polyurethanes with tailored release of coated fertilizers. journal of cleaner production.2018. in press.
1. bio-based plant oil polymers and composites.elsevier, 9780323358330.2015.sa madbouly, c zhang, mr kessler.
代表性论文 (*通讯作者):
1. c zhang, tf garrison, sa madbouly, mr kessler*. recent advances in vegetable oil-based polymers and their composites. 2017.progress in polymer science. 2017. doi: 10.1016/j.progpolymsci.2016.12.009.
2. c zhang, da mcadams, jc grunlan*. nano/micro‐manufacturing of bioinspired materials: a review of methods to mimic natural structures. 2016. advanced materials. 28 (30), 6265-6265. (cover paper)
3. c zhang, y xia, r chen, s huh, pa johnston, mr kessler*. soy-castor oil based polyols prepared using a solvent-free and catalyst-free method and polyurethanes therefrom, green chemistry, 2013, 15 (6), 1477-1484.
4. c zhang, r ding, mr kessler*. reduction of epoxidized vegetable oils: a novel method to prepare bio-based polyols for polyurethanes, macromolecular rapid communications, 2014, 35 (11), 1068−1074.
5. c zhang, y li, r chen, mr kessler*. polyurethanes from solvent-free vegetable oil-based polyols, acs sustainable chemistry & engineering. 2014, 2 (10), 2465−2476.
6. c zhang, sa madbouly, mr kessler*. biobased polyurethanes prepared from different vegetable oils, acs applied materials & interfaces. 2015, 7 (2), 1226-1233.
7. r chen, c zhang, mr kessler*. polyols and polyurethanes prepared from epoxidized soybean oil ring-opened by polyhydroxy fatty acids with varying oh numbers. journal of applied polymer science. 2015, doi: 10.1002/app.41213.
8. r chen, js chen, c zhang, mr kessler*. rapid room-temperature polymerization of bio-based multiaziridine-containing compounds. rsc advances. 2014, 5 (2), 1557-1563.
9. c zhang, mr kessler*. bio-based polyurethane foam made from compatible blends of vegetable oil-based polyol and petroleum-based polyol. acs sustainable chemistry & engineering, 2015, 3(4), 743-749. (cover paper)
10. c zhang, h wu, mr kessler*. high bio-content polyurethane composites with urethane modified lignin as filler. polymer. 2015. 69, 52-57.
11.c zhang, dk schneiderman, t cai, ys tai, k fox, k zhang*. optically active β-methyl-δ-valerolactone: biosynthesis and polymerization. 2016. acs sustainable chemistry & engineering, 4 (8), 4396-4402.
12. yechang feng, haiyan liang, ziming yang, teng yuan, ying luo, puwang li, zhuohong yang*, chaoqun zhang*. a solvent-free and scalable method to prepare soybean oil based polyols by thiol-ene photo-click reaction and biobased polyurethanes therefrom. acs sustainable chemistry & engineering, 2017, 5 (8), 7365-7373.
13. jiajian huang, teng yuan, xiyun ye, limin man, chuang zhou, yang hu, chaoqun zhang*, zhuohong yang*. study on the uv curing behavior of tung oil: mechanism, curing activity and film-forming property. industrial crops and products, 2018 112, 61-69.
14. haiyan liang, lingxiao liu, jingyi lu, moutong chen, chaoqun zhang⁎, castor oil-based cationic waterborne polyurethane dispersions: storage stability, thermo-physical properties and antibacterial properties. industrial crops & products. 2018, 117, 169-178.
15. lingxiao liu, haiyan liang jing zhang, pengfei zhang, quan xu, qiming lu⁎, chaoqun zhang⁎. pva/chitosan composites: physically transient materials for sustainable and transient bioelectronics. journal of cleaner production. 2018, 195, 786-795.
16. haiyan liang, shanwen wang, heng he, mengqi wang, lingxiao liu, jingyi lu, yi zhang, chaoqun zhang⁎. aqueous anionic polyurethane dispersions from castor oil. industrial crops and products. 2018, 122, 182-189.
17. dunsheng liang, lingxiao liu, haiyan liang, rafael l. quirino, jie chen, minghui liu, qiming lu*, chaoqun zhang*.tunable thermo-physical performance of castor oil-based polyurethanes with tailored release of coated fertilizers. journal of cleaner production.2018. in press.
八、科研项目
1.国家自然科学基金青年基金项目
2.广东省杰出青年科学基金
3.广东省省级科技计划公益研究与能力建设专项
4.广州市科技计划民生科技攻关计划
5. 镇江市“金山英才”镇江制造2025领军人才计划
6. 江苏省生物质能源与材料重点实验室开放课题重点项目
7. 华南农业大学高层次引进人才科研启动项目
8. 华南农业大学“丁颖人才支持工程”高层次人才培育工程培养对象
9. 中海油能源发展股份有限公司委托项目
10.江苏****防腐有限公司委托项目
2.广东省杰出青年科学基金
3.广东省省级科技计划公益研究与能力建设专项
4.广州市科技计划民生科技攻关计划
5. 镇江市“金山英才”镇江制造2025领军人才计划
6. 江苏省生物质能源与材料重点实验室开放课题重点项目
7. 华南农业大学高层次引进人才科研启动项目
8. 华南农业大学“丁颖人才支持工程”高层次人才培育工程培养对象
9. 中海油能源发展股份有限公司委托项目
10.江苏****防腐有限公司委托项目
九、写给学生的话
1. 天道酬勤
2. 谋事在人,成事在天
2. 谋事在人,成事在天
