Upcoming Event | 国家自然科学奖一等奖得主赵东元院士为广以师生开讲!
为帮助广以师生了解更加丰富的学术界前沿资讯,获得更多与专家学者近距离交流的机会,广东以色列理工学院推出“GTIIT-Technion科技领军人物系列讲座”,为广以师生带来精彩的学术盛宴。
点击下方链接可回顾首场GTIIT-Technion科技领军人物系列讲座:
Upcoming Event | 重磅来袭!诺奖得主开讲首场“科技领军人物系列讲座”
Lecture Review | 诺奖得主开讲新冠疫情与伦理问题
12月15日,2020年国家自然科学奖一等奖获得者、中国科学院院士、广东以色列理工学院访问教授赵东元将带来“GTIIT-Technion科技领军人物系列讲座”第二场,讲座详情如下:
讲座信息
日期:2021年12月15日(星期三)
时间:19:00-20:00(北京时间)
13:00-14:00(以色列时间)
地点:广东以色列理工学院北校区科报厅
主题:用于合成新型多级结构功能介孔材料的界面组装
主讲人:赵东元教授
中国科学院院士
复旦大学教授
广东以色列理工学院访问教授
2020年度国家自然科学奖一等奖获得者
(中国自然科学领域的最高奖项)
Zoom链接:
(1)手机端:请扫描二维码进入讲座
(2)PC端:请通过下方网址或点击文末“阅读原文”进入讲座
https://gtiit.zoom.us/j/95077535399
讲座语言:英文(将提供线上同步翻译)
功能性介孔材料具有比表面积大、介孔通道和体积大的独特性质,在催化、吸附、分离、生物医学等领域具有广阔的应用前景。本次讲座将介绍功能性介孔纳米粒子的基于界面控制的新型“定向组装”合成策略的研究进展。赵东元教授的课题组基于“定向组装”策略开发了一系列新的合成方法,可以很好地合成各种具有多层架构的新型介孔纳米材料,例如核-壳结构、蛋黄-蛋壳结构、多壳结构、纳米球的二维纳米片结构、具有超结构和不对称性质的 Janus材料、单孔空心球、多枝状结构、streamlined nanotadpoles等。这些制备出来的有着规则多层架构的功能性介孔纳米材料具有均匀可控的介孔通道、高表面积、大孔体积、开放的骨架结构和独特的流体力学特性等特点,在催化、吸附与分离、生物医学和能量转换与储存等方面具有巨大的应用潜力。
赵东元教授简介
赵东元教授出生于中国东北,1984年毕业于吉林大学化学系;1987年、1990年先后获该校硕士、博士学位。他曾在休斯顿大学 (1995-1996) 和加州大学圣芭芭拉分校 (1996-1998) 担任博士后研究员。现为复旦大学化学系教授。同时,他是莫纳什大学化学工程系的讲席教授。他曾任中国科学院和世界科学院(TWAS)院士,IZA理事会成员,国际介观结构材料协会(IMMA)主席。他曾获得ACS Nano Award(2021)等多项奖项;Natural Science一等奖;Nano Research Award(2020);Khwarizmi International Award (KIA)(2019); JCIS Darsh Wasan Award(2018年);中国化学会化学贡献奖(2018); TWAS联想科学奖(2016);印度化学研究学会的CRN Rao Award(2013);Muetterties Memory Award(2012 年);The Ho Leung Ho Lee Award(2009)、TWAS奖(2008); IMMS 奖(2008 年);DuPond Award(2005 年)。赵东元教授现任ACS Central Science高级编辑;曾任Journal of Materials Chemistry主编,Journal of Colloid and Interface Science联合主编。他发表了 750 多篇同行评审论文,90 项专利,并被列为化学和材料科学领域的高被引用研究人员 ISI 之一(总引用数:126,000,h 指数 173)。他的研究领域主要包括有序介孔材料的设计合成、组装、结构和应用。
请点击下方链接,阅读更多赵东元教授与广以的故事:
The "Guangdong-Technion Leadership in Science and Technology Lecture Series" has been held at GTIIT since last month, to provide a platform for high-impact dialogues that explore topics that are pertinent to our faculty, our students, and our community.
Please click the following links for the first lecture of this series:
Upcoming Event | 重磅来袭!诺奖得主开讲首场“科技领军人物系列讲座”
Lecture Review | 诺奖得主开讲新冠疫情与伦理问题
On December 15, the second lecture of the "Guangdong-Technion Leadership in Science and Technology Lecture Series" will be delivered by Chinese Academician Prof. Dongyuan Zhao from Fudan University - the first prize winner of the 2020 National Natural Science Award (the highest award in the realm of natural science in China).
Lecture Information
Date: December 15, 2021 (Wednesday)
Time: 19:00-20:00 (CST)
13:00-14:00 (IST)
Venue: GTIIT Auditorium
Title: Interfacial Assembly for the Synthesis of Novel Hierarchical Functional Mesoporous Materials
Speaker: Prof. Dongyuan Zhao
Fudan University
Academician of Chinese Academy of Sciences
Visiting Professor of GTIIT
First Prize Winner of 2020 National Natural Science Award
Zoom link:
(1) By mobile phone: please scan the QR code to enter the lecture
(2) By PC: please visit the website below or click "Read the original" at the end of the article to enter the lecture
https://gtiit.zoom.us/j/95077535399
Language: English(Simultaneous interpretation will be available)
Functional mesoporous materials possess both unique properties of high surface area, large pore channels and volume, showing great potential applications in catalysis, adsorption, separation, biomedicines, and so on. Here we present the development and progress for the synthesis of the functional mesoporous nanoparticles from novel "oriented assembly" strategy by interfacial control. A series of new synthesis approaches have been developed based on the oriented assembly strategy in my group. Novel mesoporous nanomaterials with multi-level architectures can be well synthesized, such as core-shell, yolk-shell, multi-shell, 2D nanosheet structures for nanospheres, superstructured and asymmetric Janus, single-hole hollow spheres, multipods, streamlined nanotadpoles, etc. The obtained functional mesoporous nanomaterials with regularly multi-level architectures possess uniform and controllable mesopore channels, high surface area, large pore volume, open frameworks and unique fluid mechanics showing great potential applications in catalysis, adsorption & separation, biomedicines and energy conversion & storage.
About Prof. Dongyuan Zhao
Prof. Dongyuan Zhao was born in Northeast of China, he received B.S. (1984), M.S. (1987) and PhD (1990) from Jilin University. He was a post-doctoral fellow at University of Houston (1995–96), University of California at Santa Barbara (1996–98). Now he is a Professor (Cheung Kong and Hao-Qing Professorship) in the Department of Chemistry at Fudan University. Currently, he is a fragmental professor in the Department of Chemical Engineering, Monash University. He was a member of the Chinese Academy of Sciences and The World Academy of Science (TWAS), Council Member of IZA, President of the International Mesostructured Materials Association (IMMA). He has received many awards such as ACS Nano Award (2021); 1st Grade Award of Natural Science; Nano Research Award (2020); Khwarizmi International Award (KIA) (2019); JCIS Darsh Wasan Award (2018); Chemistry Contribution Award, China Chemical Society (2018); TWAS Lenovo Science Prize (2016); CRN Rao Award from India Chemical Research Society (2013); Muetterties Memory Award (2012); The Ho Leung Ho Lee Award (2009), TWAS Prize (2008); IMMS Award (2008); DuPond Award (2005). He is now appointed as senior Editor of ACS Central Science; he serviced as Editor-in-Chief of the Journal of Materials Chemistry, and co-editor of the Journal of Colloid and Interface Science. He published more than 750 peer-review papers, 90 patents and is listed as one of the highly cited researchers ISI in both Chemistry and Materials Science fields (Total citation ~ 126,000, h index 173). His research interests mainly include designed synthesis, assembly, structure and application of ordered mesoporous materials.
Please click the following links to read more stories about Prof. Dongyuan Zhao and GTIIT:
文/图:研究、创新和研究生办公室,GTIIT传媒与公共事务部
Text/Photos: RIGS, GTIIT News & Public Affairs
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