关于举办华南理工大学“海内外优秀青年学者论坛”华南软物质科学与技术高等研究院分论坛的通知

发布时间:2019-05-14设置

广大师生:
华南理工大学海内外优秀青年学者论坛201511月首次启动,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。
一、论坛时间
2019520日(星期一)
二、地点
广州市天河区五山路381号华南理工大学五山校区北区科技园2号楼324报告厅
三、论坛议程
日期
时间
事项或议程
地点
520
(周一)
上午
9:30-9:40
开幕式
主持人:院领导
学院领导致欢迎词
北区科技园2号楼324报告厅
9:40-11:10
学术报告
(每位45分钟)
主持人:王林格
题目:Nanomaterials for cancer phototheranostics
报告人:唐玮博士,美国国家卫生研究院
题目:Superconducting technologies and applications in Nuclear Fusion, Accelerator and Industry
报告人:周超博士,荷兰特文特大学
 
欢迎广大师生参加!
                                 
 
华南理工大学软物质科学与技术高等研究院
分子科学与工程学院
2019514
 
附件:
1. Nanomaterials for cancer phototheranostics(唐玮博士)
摘要:
Cancer phototherapies, especially photodynamic therapy (PDT) and photothermal therapy (PTT), have gained great attention because of their highly spatiotemporal selectivity and minimal invasiveness. Although promising, several problems need to be addressed to deliver their maximum benefit to cancer care in the clinical translation. For example, tumor hypoxia impedes the efficacy of PDT; overheating in PTT induces unwanted damage to normal tissues. In this talk, I will introduce two novel techniques, RBC-PDT and Oxy-PFC-PDT, to co-deliver oxygen and photosensitizer to overcome hypoxia-associated resistance in PDT. I will discuss different strategies to avoid tumor overheating in PTT on the basis of novel theranostic nanoplatforms. I will also talk about approaches to modulate tumor microenvironment for boosted nanoparticle delivery and activation of immune system to achieve enhanced treatment outcomes.
 
报告人简介:
唐玮博士分别于2011年和2016年在中国科学技术大学和美国佐治亚大学获得化学学士和博士学位。20169月至今在美国国家卫生研究院从事博士后研究。长期从事纳米材料在肿瘤成像与治疗中的应用的研究。在肿瘤光学治疗、智能纳米诊疗剂、分子影像及靶向药物递送技术等方面发表SCI论文29篇,其中包括Chem. Soc. Rev., Adv. Mater., Adv. Funct. Mater., ACS Nano, Angew. Chem. Inter. Ed., Nano Lett.等期刊,并在重要国际会议做邀请报告。
 
2. Superconducting technologies and applications in Nuclear Fusion, Accelerator and Industry(周超博士)
摘要:
Superconducting technology may benefit society in the fields of energy (e.g. nuclear fusion), scientific researcher (partial accelerator, like LHC) and electric power; industry and transport; diagnostic and medical care; as well as information and communications, but in general remains most important for generating high magnetic fields. The unique zero resistance state and ensuing high current density enables much smaller or more powerful coils for motors, generators, energy storage, medical equipment (Magnetic Resonance Imaging - MRI) and industrial applications like water- or materials purification. The high sensitivity of superconductors to magnetic field provides a superior sensing capability. The high magnetic fields may allow a new generation of transport technologies, including ship propulsion, magnetically levitated trains, and railway traction transformers. The technical feasibility of such applications has been proven world-wide in demonstrator units or prototypes. The most successful applications of superconductivity, however, is for generating high magnetic fields for physics and research, for nuclear magnetic resonance (NMR), for particle accelerators and - detectors and for various specialized laboratory magnets. In this talk, the applications in nuclear fusion, accelerator and Industrylike MRIare briefly presented and discussed. 
 
报告人简介:
周超博士2009年硕士毕业于中科院等离子体物理研究所,2014年在荷兰特文特大学获得博士学位。2014-2016年在国际热核聚变组织总部进行博士后研究,Monaco Fellow2016年至今在荷兰特文特大学以Senior Scientist Researcher进行超导技术工业化应用研究。从2009年起从事超导科学与技术领域的研究,从材料,性能到超导导体,磁体的设计研制与应用,迄今共发表论文39 篇,其中以第一作者和通讯作者发表15篇,在超导领域国际顶级期刊超导科学与技术(Superconductor Science and Technology)上发表15篇(JCR二区),并在国际磁体大会和超导应用大会上做邀请报告和多次口头报告。
 
 

附件:

返回原图
/