关于组织开展2018年广东省【澳门威利斯人手机版

各相关学院:2018年广东省“珠江人才计划”引进创新创业团队项目将于6月组织申报。为认真做好本次申报工作,依托该项目大力引进高层次人才或团队来校工作,经研究,现启动本年度“珠江人才计划”引进创新创业团队项目的预申报工作,对我校拟申报团队进行摸底,提前做好申报准备工作。现将有关事项通知如下:一、项目介绍“珠江人才计划”团队项目于2009年11月启动,由省委组织部牵头,省科技厅负责组织实施,是广东省率先在国内开展的“整团队成建制”引才计划。该项目政策力度大、资助额度高,备受社会各界关注。近两年来,“珠江人才计划”团队项目内涵不断丰富,2016年起,为吸引40岁以下海外优秀青年学者组团来粤工作,特设“海外青年英才团队”项目,省里对此类团队指标单列、优先支持。二、支持重点围绕新一代信息技术、高端装备制造、生物技术与新医疗、创新药物、新材料、新能源与节能、资源与环境等高新技术领域,重点引进在计算与通信集成芯片、移动互联关键技术与器件、云计算与大数据管理技术、智能机器人、新能源汽车电池与动力系统、增材制造技术、新型印刷显示技术与材料、第三代半导体材料与器件、无人智能技术、精准医学与干细胞等研究方向取得先进创新成果或拥有自主知识产权、可实现核心关键技术突破或产业化前景广阔的创新创业团队。三、主要申报条件(参照2017年申报条件拟定)1.申报人身体健康,年龄不超过65周岁。其中,海外青年英才团队所有成员年龄不超过40周岁,均为国外引进、具有博士研究生学历。2.团队由1名带头人和不少于4名核心成员组成,均为国外、省外引进,优先支持从国外引进的团队。3.团队成员引进后需在粤连续工作5年以上,其中团队带头人和第一、二核心成员需全职在粤工作;其余核心成员可选择全职或平均每年兼职在粤工作3个月以上。优先支持所有成员全职在粤工作的团队。4.团队成员至少两两之间在高校、企业、科研机构或重大项目中有过3年以上稳定合作基础。5.团队成员需与学校签订意向性合同,承诺入选后3个月内(从印发入选名单之日起算)签订正式合同并到岗;如已与学校签订正式合同,首次签订合同时间应在2017年1月1日之后。四、支持政策1.对入选的技术研发产业化类团队按三个档次给予1000万元至1亿元的资助;对入选的应用基础研究类团队定额资助2000万元。2.新引进并符合条件的团队带头人及核心成员经认定为“珠江人才计划”引进高层次人才的,省财政可给予最高350万元购房补贴和每年最高100万元生活补贴,同时按规定享受各类人才服务政策。五、预申报工作流程1.积极物色和联系申报团队,如有意向请填写“华南理工大学第八批省引进创新创业团队申报意向名单”,并于6月19日前将该意向名单电子版发至邮箱:htxie@scut.edu.cn,同时纸质版报送至人事处高层次人才工作办公室(南秀村博士后公寓309)。2.意向团队和所在学院可通过《广东省科学技术厅关于组织申报2017年广东省“珠江人才计划”引进创新创业团队项目的通知》,了解申报公告、申报指南、申报书、申报领域分类指导目录等详情(链接地址: 事 处2018年6月4日

报告题目:Schemes for Temperature Read-Out from Luminescence报 告 人:Prof.Miroslav D. Dramićanin(University of Belgrade)主 持 人:张勤远 教授报告时间:2018年10月26日下午16:00报告地点:发光材料与器件国家重点实验室402会议室欢迎广大师生积极参加!材料科学与工程学院2018年10月16日报告人简介:Prof. Dr. Miroslav D. Dramićanin (born in Belgrade on 23rd July 1966) is the Head of Department for Radiation Chemistry and Physics, Vinča Institute and Full professor of Applied Physics, Faculty of Physics, University of Belgrade, Serbia. He is Adjunct senior scientist at the Houston Center for Biomaterials and Biomimetics, University of Texas at Houston, USA. He acts as an associate editor of the Optical Materials and Member of the National Council for Physics of the Republic of Serbia. He is Chairperson of the International Conference on the Physics of Optical Materials and Devices – www.icomonline.org and Member of the Steering Committee of the Association of Italian and Serbian Scientists and Scholars - www.ais3.rs. Prof. Dramićanin has published 1 book, 7 book chapters, and 229 papers in international journals (including papers in the high impact factor journals such as Advanced Materials and ACS Nano). According to Google scholar his papers are cited more than 4800 times. He is leading Optical Materials and Spectroscopy Group () and his research is mainly focused on the synthesis and characterization of lanthanide and transition metal ion activated phosphors and nanophosphors, photocatalytic materials, and physical and chemical sensing using luminescence and luminescent nanoprobes.报告摘要:Temperature sensors comprise a market of USD 5.13 billion and are used across a broad spectrum of human activities, such as in medicine, home appliances, meteorology, agriculture, industry, and military [1]. A significant growth in demand is expected in the near future for contactless temperature sensors, which are not only easy to use, but are less complex and more accurate than contact temperature sensors. For example, there is an immediate need for noncontact thermometry for moving objects or objects which are sensitive to contact, difficult to access, or in hazardous locations [2]. Thermometry based on changes in the optical properties of materials is considered a promising route to meet these needs. Besides the well-known pyrometers and radiation thermometers, of interest are novel optical thermometers based on near-field scanning optical microscopy, Raman scattering, optical interferometry, thermoreflectance, and luminescence spectroscopy. The largest attention among emerging optical methods is in the luminescence thermometry because of the ease of detection of luminescence signal in comparison to other methods, relatively fast response, and a good spatial resolution.This contribution presents the state-of-the art applications of luminescence thermometry, giving a detailed explanation of luminescence spectroscopic schemes for the read-out of temperature [3]. Schemes are classified to as time-integrated and time-resolved ones depending on the temporal nature of the luminescence measurements. The former includes methods based on reading temperatures from the intensity of emission, the ratio of emission intensities, the changes of excitation and emission band positions and widths with temperature, and luminescence anisotropy (polarization). The later includes methods based on measurements of emission decay -times and rise -times. The contribution also presents a comparative analysis of the advantages/disadvantages between of time-integrated and time-resolved temperature read-outs. Examples of temperature read-out schemes are given for different types of materials including phosphors, quantum dots, organic dyes, and luminescent polymers.References:[1] M. D. Dramićanin, Luminescence Thermometry: Methods, Materials and Applications 1st Ed., Woodhead Publishing Series in Electronic and Optical Materials, Woodhead Publishing, 2018.[2] Ž. Antić, M. D. Dramićanin, K. Prashanthi, D. Jovanović, S. Kuzman, T. Thundat, Advanced Materials, 28, 7745-7752 . [3] M. D. Dramićanin, Methods and Applications in Fluorescence, 4, 042001

各学院,各有关单位:学校2018年学生田径运动会定于11月校庆活动期间举行。为保证校运会的顺利进行,现将有关事项通知如下:一、时 间2018年11月17日—18日,共两天时间。开幕式时间:11月17日上午9:00;闭幕式时间:11月18日下午16:00。二、地点大学城校区教学区田径场。三、举办单位主办单位:华南理工大学体育运动委员会承办单位:学校办公室、大学城校区管委会办公室、校团委、学生工作部、体育学院。四、组织委员会主 任:吴业春副主任:关春兰、叶汉钧、孟勋、李卫青、樊莲香委 员:学校体育运动委员会成员单位负责人宣传组负责人:张锅红财务组负责人:马红红后勤组负责人:叶伟雄保卫组负责人:陈永强医务组负责人:刘 冰竞赛组负责人:黄炜皓场地器材组负责人:林文展、邱梦莹五、竞赛规程和工作安排校运会是一项全校性的重大活动,学校各部门须密切配合,共同参与,详见竞赛规程和工作安排表。请各学院积极组织,在11月5日24:00之前,按照标准报名表模板填报发到邮箱:925504095@qq.com,逾期不予受理。附件:1.学校体育运动委员会成员单位名单

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