梅清清,湖北黄冈人,浙江大学环境与资源学院“百人计划”研究员,博士生导师,牛顿国际学者。2017年博士毕业于中国科学院化学研究所,师从韩布兴院士;2018年进入英国曼彻斯特大学从事博士后研究工作,并获得英国皇家学会授予的牛顿国际奖学金(当年全球仅授予58人);2021年全职加入浙江大学环境与资源学院,担任“百人计划”研究员。长期从事生物质废弃物定向催化转化与资源化的前沿研究,开发了多条生物质转化新路线,特别是在木质素的高选择转化研究中取得了重大突破,提出一种特定基团优先转化策略,实现了将木质素转化为单一产物。在Sci. Adv., Angew. Chem. Int. Ed.等权威期刊上发表SCI论文30余篇。
课题组专注于有机固体废弃物(生物质、废塑料等)资源化,开发高效有机固废定向转化方法替代化石资源制备高附加值化学品,挖掘有机固废作为功能材料在环境污染治理方面的应用潜力。实现变废为宝、消除污染、物质循环、价值升华,为建立健全绿色低碳循环发展经济体系做贡献,助力我国实现碳中和重要战略目标。因科研工作需要,现面向国内外公开招聘博士后2-3名、科研助理2名、2022年博士1名(普博或直博均可)。热忱欢迎化学(催化、有机)、材料、环境、生物等相关专业优秀人才加盟,共创碳中和的美好明天!
1. Mei, Qingqing; Yang, Youdi; Liu, Hangyu; Li, Shaopeng; Liu, Huizhen; Han, Buxing. A New Route to Synthesize Aryl Acetates from Biomass-Derived Feedstock. Science Advances, 2018, 4 (5), eaaq0266.
2. Mei, Qingqing; Liu, Huizhen; Shen, Xiaojun; Meng, Qinglei; Liu, Hangyu; Han, Buxing. Selective Utilization of the Methoxy Group in Lignin to Produce Acetic Acid. Angewande Chemie International Edtion, 2017, 56, 14868-14872. (VIP, Front Cover)
3. Mei, Qingqing; Shen, Xiaojun; Liu, Huizhen; Liu, Hangyu; Xiang, Junfeng; Han, Buxing. Selective Utilization of Methoxy Group in Lignin for N-methylation Reaction of Anilines. Chemical Science, 2019, 10, 1082-1088.
4. Mei, Qingqing; Liu, Huizhen; Yang, Youdi; Liu, Hangyu; Li, Shaopeng; Zhang, Pei; Han, Buxing. Base-Free Aerobic Oxidation of Alcohols over Copper-Based Complex under ambient condition. ACS Sustainable Chemistry & Engneering, 2017, 6, 2362-2369.
5. Mei, Qingqing; Liu, Huizhen; Hou, Minqiang; Liu, Hangyu; Han, Buxing. Selective Hydration of Asymmetric Internal Aryl Alkynes without Directing Groups to α-Aryl Ketones over Cu-based catalyst. New Journal of Chemistry, 2017, 47, 6290-6295.
6. Mei, Qingqing#; Shen, Xiaojun#; Liu, Huizhen; Han, Buxing. Selectively transform lignin into value-added chemicals. Chinese Chemical Letters, 2019, 30, 15-24.
7. Mei, Qingqing; Hou, Minqiang; Ning, Hui; Ma, Jun; Yang, Dezhong; Han, Buxing. Microstructure and Intermolecular Interactions of [Bmim][PF6] + Water + Alcohol Systems: A Molecular Dynamics Simulation Study. Acta Physico-Chemica Sinica, 2014, 30 (12), 2210-2215.
8. Lian, Xueyu#; Sun, Zhongti#; Mei, Qingqing#; Yi, Yuyang; Zhou, Junhua; Rümmeli, Mark; Sun, Jingyu. Biomass Template Derived Boron/Oxygen Co‐Doped Carbon Particles as Advanced Anodes for Potassium‐Ion Batteries. Energy & Environmental Materials, 2021, doi: 10.1002/eem2.12183.
9. Hou, Minqiang*; Mei, Qingqing; Han, Buxing. Solvent effects on geometrical structures and electronic properties of metal Au, Ag, and Cu nanoparticles of different sizes. Journal of Colloid and Interface Science, 2015, 449, 488-493.
10. Lin, Longfei; Mei, Qingqing; Han, Xue; Parker, Stewart; Yang, Sihai. Topics in Catalysis, 2020, DOI: 10.1007/s11244-020-01389-7.
11. Shen, Xiaojun; Meng, Qinglei; Mei, Qingqing; Liu, Huizhen; Yan, Jiang; Song, Jinliang; Tan, Dongxing; Chen, Bingfeng; Zhang, Zhanrong; Yang, Guanying; Han, Buxing. Selective catalytic transformation of lignin with guaiacol as the only liquid product. Chemical Science, 2020, 11(5), 1347-1352
12. Shen, Xiaojun; Meng, Qinglei; Mei, Qingqing; Xiang, Junfeng; Liu, Huizhen; Han, Buxing. The Production of 4-Ethyltoluene Via Directional Valorization of Lignin. Green Chemistry, 2020, 22(7), 2191-2196.
13. Shen, Xiaojun; Wen, Jialong; Mei, Qingqing; Chen, Xue; Sun, Dan; Yuan, Tongqi; Sun, Runcang. Facile fractionation of lignocelluloses by biomassderived deep eutectic solvent (DES) pretreatment for cellulose enzymatic hydrolysis and lignin valorization. Green Chemistry, 2019, 21(2), 275-283.
14. Shen, Xiao-Jun; Chen, Tianying; Wang, Han-Min; Mei, Qingqing; Yue, Fengxia; Sun, Shaoni; Wen, Jia-Long; Yuan, Tong-Qi; Sun, Run-Cang. Structural and Morphological Transformations of Lignin Macromolecules During Bio-Based Deep Eutectic Solvent (Des) Pretreatment. ACS Sustainable Chemistry & Engineering, 2019, 8(5), 2130-2137.
15. Yang, Youdi; Li, Shaopeng; Xie, Chao; Liu, Hangyu; Wang, Yanyan; Mei, Qingqing; Liu, Huizhen; Han, Buxing. Ethylenediamine Promoted the Hydrogenative Coupling of Nitroarenes over Ni/C Catalyst. Chinese Chemical Letters, 2019, 30(1), 203-206.
16. Yang, Youdi, Liu, Hangyu; Li, Shaopeng; Chen, Chunjun; Wu, Tianbin; Mei, Qingqing; Wang, Yanyan et al. Hydrogenolysis of 5-Hydroxymethylfurfural to 2, 5-Dimethylfuran under Mild Conditions without Any Additive. ACS Sustainable Chemistry & Engineering, 2019, 7(6), 5711-5716.
17. Liu, Mingyang; Zhang, Zhanrong; Liu, Huizhen; Xie, Zhenbing; Mei, Qingqing; Han, Buxing. Transformation of alcohols to esters promoted by hydrogen bonds using oxygen as the oxidant under metal-free conditions. Science advances, 2018, 4 (10), eaas9319.
18. Liu, Hangyu; Mei, Qingqing; Li, Shaopeng; Yang, Youdi; Wang Yanyan; Liu, Huizhen; Zheng, Lirong; An, Pengfei; Zhang, Jing; Han, Buxing. Selective hydrogenation of unsaturated aldehydes over Pt nanoparticles promoted by the cooperation of steric and electronic effects. Chemical Communications, 2018, 54(8), 908-911.
19. Liu, Hangyu; Mei, Qingqing; Xu, Qinglin; Song, Jinliang; Liu, Huizhen; Han, Buxing. Synthesis of formamides containing unsaturated groups by N-formylation of amines using CO2 with H2. Green Chemistry, 2017, 19 (1), 196-201.
20. Ma, Jun, Lu, Lu; Mei, Qingqing; Zhu, Qinggong; Hu, Jiayin; Han, Buxing. Zni2/Net3‐Catalyzed Cycloaddition of Co2 with Propargylic Alcohols: Computational Study on Mechanism. ChemCatChem, 2017, 9 (21), 4090-4097.
21. Chen, Bingfeng; Li, Fengbo; Mei, Qingqing; Yang, youdi; Liu, Huizhen; Yuan, Guoqing; Han, Buxing. Synthesis of nitrogen and sulfur co-doped hierarchical porous carbons and metal-free oxidative coupling of silanes with alcohols. Chemical Communications, 2017, 53 (97), 13019-13022.
22. He, Zhenhong; Liu, Hangyu; Liu, Huizhen; Qian, Qingli; Meng, Qinglei; Mei, Qingqing; Han, Buxing. Heterogeneous Cobalt-Catalyzed Direct N-Formylation of Isoquinolines with CO2 and H2. ChemCatChem, 2017, 9 (11), 1947-1952.
23. Liu, Hangyu; Mei, Qingqing; Wang, Yanyan; Liu, Huizhen; Han, Buxing. N-vinyl pyrrolidone promoted aqueous-phase dehydrogenation of formic acid over PVP-stabilized Ru nanoclusters. Science China Chemistry, 2016, 59 (10), 1342-1347.
24. Zhang, Suqi; Mei, Qingqing; Liu, Hangyu; Liu, Huizhen; Zhang, Zepeng; Han, Buxing. Copper-catalyzed N-formylation of amines with CO2 under ambient conditions. RSC Advances, 2016, 6 (38), 32370-32373.
25. Gao, Xiang; Yu, Bo; Mei, Qingqing; Yang, Zhenzhen; Zhao, Yanfei; Zhang, Hongye; Hao, Leiduan; Liu, Zhimin. Atmospheric CO2 promoted synthesis of N-containing heterocycles over B(C6F5)(3) catalyst. New Journal of Chemistry, 2016, 40 (10), 8282-8287.
26. Hu, Jiayin; Ma, Jun; Zhu, Qinggong; Qian, Qingli; Han, Hongling; Mei, Qingqing; Han, Buxing. Zinc(II)-catalyzed reactions of carbon dioxide and propargylic alcohols to carbonates at room temperature. Green Chemistry, 2016, 18 (2), 382-385.
27. Liu, Chengcheng; Mei, Qingqing; Zhang, Jianling; Kang, Xinchen; Peng, Li; Han, Buxing; Xue, Zhimin; Sang, Xinxin; Yang, Xiaogan; Wu, Zhonghua; Li, Zhihong; Mo, Guang. CO2 as a smart gelator for Pluronic aqueous solutions. Chemical Communications, 2014, 50 (91), 14233-14236.
28. Hou, Minqiang; Zhang, Jianling; Han, Buxing; Mei, Qingqing; Ning, Hui; Yang, Dezhong. The molecular clusters in a supercritical fluid-solid system should be considered as a phase-thermodynamic principle and evidence. Physical Chemistry Chemical Physics, 2013, 15 (26), 10654-10658.
29. Ning, Hui; Hou, Minqiang, Mei, Qingqing, Yang, Dezhong, Han, Buxing. Phase Behaviors of 1-Butyl-3-methylimidazolium Hexafluorophosphate + Water + Alcohol Systems. Acta Physico-Chemica Sinica, 2013, 29 (04), 678-682.
30. Ning, Hui; Hou, Minqiang; Mei, Qingqing; Liu, Yuanhui; Yang, Dezhong; Han, Buxing. The physicochemical properties of some imidazolium-based ionic liquids and their binary mixtures. Science China Chemistry, 2012, 55 (8), 1509-1518.
31. Liu, Yu; Wang, Yafei; He, Juan; Mei, Qingqing; Chen, Kai; Cui, Jiaojiao; Li, Chun et al. High-Efficiency Red Electroluminescence from Europium Complex Containing a Neutral Dipyrido (3, 2-A: 2’, 3’-C) Phenazine Ligand in Pleds. Organic Electronics, 2012, 13(6), 1038-1043.
一、研究方向
1.有机固体废弃物定向转化与高值利用
2.基于有机固体废弃物的环境功能材料
二、应聘条件
(一)博士
请自行查阅最新招生简章。直博申请着请在大三暑期关注学院夏令营,积极报名参加。普博要求英语460分以上,或雅思5.5或托福80以上,且至少发表一篇第一作者高质量SCI论文,硕士毕业不超过三年。
(二)科研助理
硕士以上学历,至少发表SCI论文1篇
(三)博士后
1. 年龄35岁以下,身心健康,相关专业博士即将毕业或毕业不超过三年;
2.博士就读以来发表过1篇以上高水平学术论文(第一作者),有较强科研能力;
3.具有较强执行力和创新思维,能够在导师指导下独立开展研究工作;
4.良好的团队合作意识和沟通能力,较强中英文表达、阅读、写作能力;
5.其它专业背景的优秀博士对课题组研究感兴趣的亦可联系PI讨论结合点。
三、工作待遇
1.工资及福利待遇按浙江大学博士后相关规定执行,20-30万元人民币,一人一议,课题组依据工作绩效另提供科研奖励;
2.博士后进站工作2年及以上,可申报浙江大学高级专业技术职务资格;
3.科研工作优秀、业绩突出者,期满可申报浙江大学特聘(副)研究员等教师岗位;
4.可申请租住教师公寓(优惠价格租赁)或按照规定申请社会化租房补贴;
5.提供良好的科研条件、指导协助发表高水平论文、支持申请各类基金项目;
6.支持参加国内外相关会议,并可推荐至剑桥大学、曼彻斯特大学、麦吉尔大学、中科院等单位工作。
四、应聘方式
有意向者请将个人简历(PDF文件,包含完整的学习和工作经历、学术论文列表、代表性论文全文)发送至meiqq@zju.edu.cn,主题注明“博后应聘--本人姓名”。收到材料初审后,我们会尽快与申请人联系安排面试。
浙江大学是一所历史悠久、声誉卓著的高等学府,坐落于中国历史文化名城、风景旅游胜地杭州。浙江大学的前身求是书院创立于1897年,为中国人自己最早创办的新式高等学校之一。1928年,定名国立浙江大学。抗战期间,浙大举校西迁,在贵州遵义、湄潭等地办学七年,1946年秋回迁杭州。1952年全国高等学校院系调整时,浙江大学部分系科转入兄弟高校和中国科学院,留在杭州的主体部分被分为多所单科性院校,后分别发展为原浙江大学、杭州大学、浙江农业大学和浙江医科大学。1998年,同根同源的四校实现合并,组建了新浙江大学,迈上了创建世界一流大学的新征程。习近平总书记主政浙江期间,亲自联系浙江大学,18次莅临指导,对学校改革发展作出了一系列重要指示,描绘了高水平建成中国特色世界一流大学的宏伟蓝图。在120多年的办学历程中,浙江大学始终秉承以“求是创新”为校训的优良传统,以天下为己任、以真理为依归,逐步形成了“勤学、修德、明辨、笃实”的浙大人共同价值观和“海纳江河、启真厚德、开物前民、树我邦国”的浙大精神。
浙江大学是一所特色鲜明、在海内外有较大影响的综合型、研究型、创新型大学,学科涵盖哲学、经济学、法学、教育学、文学、历史学、艺术学、理学、工学、农学、医学、管理学、交叉学科等13个门类,设有7个学部、37个专业学院(系)、1个工程师学院、2个中外合作办学机构、7家直属附属医院。学校现有紫金港、玉泉、西溪、华家池、之江、舟山、海宁等7个校区,占地面积6223440平方米,图书馆总藏书量787万册。截至2020年底,学校有全日制学生60739人、国际学生5596人、教职工9674人,教师中有中国科学院院士、中国工程院院士(含双聘)52人、文科资深教授15人、教育部“长江学者奖励计划”特聘教授101人、国家杰出青年科学基金获得者154人。在国家公布的“双一流”建设名单中,学校入选一流大学建设高校(A类),18个学科入选一流建设学科,居全国高校第三。
浙江大学紧紧围绕“德才兼备、全面发展”的核心要求,全面落实立德树人根本任务,着力培养德智体美劳全面发展、具有全球竞争力的高素质创新人才和领导者。在长期的办学历程中,学校涌现出大批著名科学家、文化大师以及各行各业的精英翘楚,包括1位诺贝尔奖获得者、5位国家最高科技奖得主、4位“两弹一星”功勋奖章获得者、1位“八一勋章”获得者、1位全军挂像英模、5位国家荣誉称号获得者、6位“最美奋斗者”和210余位两院院士等杰出典型,为实现中华民族伟大复兴、推进人类文明交流互鉴作出了积极贡献。
浙江大学注重精研学术和科技创新,建设了一批开放性、国际化的高端学术平台,汇聚了各学科的学者大师和高水平研究团队。“十二五”以来,学校多项科研创新指标保持全国高校前列,作为牵头单位获得国家科技进步特等奖1项、一等奖8项、二等奖56项;《中国历代绘画大系》、《中华礼藏》、敦煌学等文化传承创新成果在海内外产生了广泛影响。
“国有成均,在浙之滨”。今天的浙江大学,坚持以习近平新时代中国特色社会主义思想为指导,致力于传播与创造知识,弘扬与引领文化,服务与奉献社会,坚持“更高质量、更加卓越、更受尊敬、更有梦想”的战略导向,统筹推进“五大体系”“五大布局”“五大战略”,加快走向世界一流大学前列,为实现中华民族伟大复兴、促进人类文明进步作出卓越贡献。
