广大师生:
华南理工大学“海内外优秀青年学者论坛”旨在面向全球邀请拥有不同学术背景的青年才俊,围绕国际科学前沿、热点研究领域以及行业产业的技术问题等展开探讨和交流。通过这个平台,互相启迪、开拓视野,增强国际交流与合作,促进双方共同发展。本次论坛的具体安排如下:
一、论坛时间
2019年1月11日上午8:30-12:00
二、地点
华南理工大学发光材料与器件国家重点实验室402会议室
三、论坛议程
1.8:30-8:40 开幕式 研究院领导欢迎致辞
2.8:40-12:00 学术报告 (每位40分钟) 主持人:秦安军
欢迎广大师生参加!
材料科学与工程学院
2019年1月7 日
附:
1、报告题目:Supramolecular Polymeric Materials: the Marriage of Covalent Polymers and Non-Covalent Interactions(吉晓帆博士)
内容摘要:Supramolecular polymeric materials, which have emerged as the marriage of polymer science, supramolecular chemistry and materials science, have gained considerable interest in recent years as excellent materials not only due to their properties similar to traditional polymers which are built by covalent bonds, but also because of the reversibility and stimuli-responsiveness of noncovalent bonds. Supramolecular polymeric materials can response to abundant external stimuli, such as pH change, photo irradition, anions, cations, temperature, and solvent. As a result, the reversibility and responsiveness to external stimuli may further provide a range of potential applications, including those as superabsorbers, as matrices in analytical chemistry or biology, and as storage and delivery systems for active substances in the biomedical field. Furthermore, supramolecular polymer materials can be prepared under different conditions, namely in solution, in gel, and in the solid state. Various kinds of noncovalent interactions can be introduced into polymer materials, such as hydrogen bonding, aromatic stacking interactions, metal coordination, and host-guest interactions. In this talk, we will state the utilization of noncovalent interactions to control the self-assembly of traditional polymers in order to fabricate supramolecular polymeric materials.
报告人简介:吉晓帆博士于2010年6月在武汉理工大学获得学士学位,于2015年6月在浙江大学获得博士学位。 2015年9月至今,分别在日本东京大学、美国德克萨斯大学-奥斯汀分校、香港科技大学从事博士后研究工作。吉晓帆博士主要致力于功能超分子聚合物材料的研究,在两亲性超分子聚合物,超分子聚合物网络,以及超分子聚合物凝胶等领域取得了一系列的科研成果。已发表第一/通讯作者论文29篇,包括四篇 Adv. Mater., 两篇JACS ,和两篇 Chem. Sci. 等,并撰写了《大分子自组装新编》第八章。研究成果分别被Nature, C&EN等亮点报道,一篇论文入选“中国百篇最具影响国际学术论文(2013)”。2.报告题目
2.报告题目:Engineering Polymer/Inorganic Hybrid Nanoparticles for Cancer Theranostics (刘奕静博士)
内容摘要:Nanomaterials show great potential to fight cancers because of their capabilities of diagnosing and treating cancer simultaneously, improving the efficiency of drug delivery, and diminishing side effects. Polymer/inorganic hybrid nanoparticles, which combine the advantages of both polymer and inorganic components, are expected to improve the treatment outcomes. Yet, it remains a great challenge to achieve precise cancer therapy with nanomaterials that requires optimization of their properties as well as understanding of their interactions with biological systems. In this talk, I would like to report my recent progress to address this challenge from two different aspects. In the first part, I will present a self-assembly strategy to construct polymer/inorganic hybrid nanoparticles with enhanced collective properties. In the second part, I will introduce how we can use our knowledge of nano-bio interactions to design nanomaterials for enhanced cancer therapy.
报告人简介:刘奕静博士,于2010年7月在武汉大学获得学士学位,于2015年8月在美国马里兰大学获得博士学位。2015年10月至今美国国立卫生研究院(NIH) 作为博士后研究员从事研究工作。刘奕静博士致力于研发可用于癌症诊断治疗的纳米材料。主要研究内容包括:研究多功能无机高分子杂化材料的合成以及结构和性能的优化,研究多功能纳米材料在肿瘤诊断、治疗方面的应用,研究纳米材料与生物系统间的作用。申请人以共同作者发表SCI论文64篇。其中以第一作者或共同一作发表论文 J. Am. Chem. Soc. 1篇、 Angew. Chem. Int. Ed. 2篇(其中1篇被选为封面文章和VIP论文)、ACS nano 2篇、Chem.Soc.Rev. 1篇、Nano Today 1篇。
3.报告题目:Emerging Solar Cell Technology: Challenges and Opportunities(张金宝博士)
内容摘要:Solar cells, directly converting the solar energy into electricity, have been well recognized as one of the most promising renewable energy technologies to provide clean and abundant energy resources. So far there are different types of solar technologies in the solar market, and in this talk I will briefly describe the development of the solar technology and the main challenges we face to manufacture and apply them in large scale. I will also introduce all the new methods, functional materials and interfacial charge engineering strategy I have developed in aiming to improve the efficiency, stability and scalability of different solar cell technologies. I will conclude with a personal perspective on directions for the future development of solar technologies, which may involve the design of new functional materials, device architecture and advanced interface engineering.
报告人简介:Dr. Jinbao Zhang is Wallenberg Postdoc Fellow of Department of Materials Science and Engineering at Stanford University. He obtained his PhD degree in Physical Chemistry from Uppsala University in Sweden. He specializes in the energy conversion and storage techniques, including lithium ion batteries, capacitors, solar cells, fuel cells. His research interests include novel material design, charge dynamics and device engineering for different types of solar technologies. In 2016 he was awarded “Swedish Wallenberg Fellow”. He has published over 40 papers, including Advanced Materials, Energy Environmental Science, Chem, ACS Nano, ACS Energy Letters, et al., with citations over 1100 and h-index 20.
4.报告题目:Perovskite solar cells: from the molecule level to crystal structure and device performance(王琼博士)
内容摘要:Perovskite solar cells (PSCs) as a young photovoltaic technology have experienced fast development in the power conversion efficiency, with a world record efficiency of over 23%, highly competitive with that of silicon solar cells and thin-film photovoltaics (PVs). However, the operational lifetime of PSCs lags far behind compared to the well-established PVs. Therefore, enhancing the lifespan of PSCs has been one of the focuses of the perovskite PV community. In this talk, I will show our recent work on all inorganic PSCs composed of inorganic perovskite compound and inorganic electron and hole selective contact, exhibiting an extraordinary photo-thermal stability, and holding a robust lifetime, T80-the time it takes for the a solar cell to degrade to 80% of its initial efficiency-during the accelerated ageing test. Our work shows that inorganic PSCs will be the future of this new PV technology that clears the device instability hurdle standing on the way of commercialisation of PSCs.
报告人简介:Dr. Qiong Wang is currently a postdoctoral researcher in the Young Investigator Group lead by Dr. Antonio Abate at Helmholtz-Zentrum Berlin. Her research interests include developing stable perovskite solar cells, understanding the working mechanisms of perovskite solar cells and exploring new perovskite compounds. Before joining Dr. Antonio Abate’s group, she worked as a research fellow in the Department of Chemistry at Michigan State University in 2016‒2017 after she obtained the Ph.D. degree in Chemical Engineering from the University of Queensland.
5.报告题目:Enabling Tools for Disease Diagnosis, Imaging and Intervention (李隽巍博士)
内容摘要:The ability to create and use tools differentiates humans from all the other living beings. As a result,tools have been playing an important role in human history. Millions of years ago, our ancestors created the very first piece of tools with stone. Since then, many other tools have been created to change our life. In the field of biomedicine, The creation and use of molecular tools, such as molecular probes, nanoscale agents, and drugs, have significantlybenefited the modern society. Specifically, these tools have been applied for both the scientific discoveries and clinical advancements.
报告人简介:李隽巍博士于2012年6月在浙江大学获得学士,2017年6月在美国华盛顿大学获得博士学位。2017年12月至今在美国麻省理工学院从事博士后研究。主要从事疾病早期检测诊断系统的构建及应用这一前沿热点领域,尤其是在高灵敏度疾病检测和医学成像方面取得一系列开拓性的研究成果。近五年来,以第一作者身份在Nature Biomedical Engineering等顶级刊物发表SCI论文7篇,并合作发表Nature Medicine、Nature Biomedical Engineering等顶级刊物5篇。其研究成果被国际知名杂志Nature Biomedical Engineering通篇报道。
