发布日期:2024-04-06 浏览次数:次
教师主页 团队成员 科研项目 研究领域 学术成果 教学 科研分享 新闻动态 疼痛医学中心 成果介绍 软件 毕业去向 加入我们 联系我们 叶建淮 Google Scholar ResearcherID 副教授(研究员) 环境科学与工程学院 叶建淮,南方科技大学环境科学与工程学院副教授(研究员、博士生导师),国家级青年人才。2017年博士毕业于多伦多大学,随后于哈佛大学从事大气化学博士后研究工作。主要研究方向包括大气污染物排放特征表征、大气污染形成机制及其环境气候效应、大气污染物化学传感器的开发与应用等。发表论文50余篇,其中第一/通讯作者论文发表在PNAS、Nature Communications、Environmental Science & Technology、Geophysical Research Letters、Atmospheric Chemistry and Physics等大气环境领域知名期刊。主持国家自然科学基金青年、面上、深圳市自然科学基金面上等多项国家级和省市级项目。担任ACS ES&T Air和《地球化学》青年编委、以及Frontiers in Forests and Global Change、Air Quality, Atmosphere & Health副主编。任中国环境科学学会挥发性有机物污染防治专业委员会委员、中国颗粒学会第四届青年理事。 一、工作经历 2022.12至今 南方科技大学,副教授(研究员) 2021.06–2022.11 南方科技大学,助理教授(副研究员) 2017.08–2021.04 哈佛大学,博士后研究员 二、教育背景 2013.09–2017.11 博士,多伦多大学(加拿大) 2010.10–2012.09 硕士,广岛大学(日本) 2006.09–2010.07 本科,北京化工大学 三、荣誉奖励 The Atmosphere 2022 Young Investigator Award(2022)、NSERC Postdoctoral Fellow(US & Canada, 2020)、大气化学学术研讨会新兴科学家(ACCESS XV,2019)、Camille & Henry Dreyfus Postdoctoral Fellow(US, 2019)、University of Toronto Student Discovery Award(2017)、University of Toronto Centre for Global Change Science Student Research Award(2015)、Ontario Trillium Scholarship(Canada, 2013)、Honors Scholarship for Privately-Financed International Student(Japan, 2012)等。 个人简介 个人简介 研究领域 ARISEN课题组 (Atmospheric Research Integrating chemical Sensing and ENvironmental chemistry) 1. 天然源挥发性有机物排放特征 2. 人为源排放对天然源二次气溶胶形成的影响及其环境气候效应 3. 大气污染物化学传感器的开发与应用 教学 地球科学概论(本科生课程) 学术成果 查看更多 (#: 同等贡献, *: 通讯作者,截止至2023年1月1日) Zhai, J.; Yang, X.; Li, L.; Ye, X.; Chen, J.; Fu, T.-M.; Zhu, L.; Shen, H.; Ye, J.; Wang, C.; Tao, S., Direct Observation of the Transitional Stage of Mixing-State-Related Absorption Enhancement for Atmospheric Black Carbon. Geophysical Research Letters, 2022, 49, e2022GL101368. Chu, C-W.; Zhai, J.; Han, Y.; Ye, J.; Li, K.; Zaveri, R.; Scot, M.; Hung, H-M., New particle formation and growth dynamics for pinene ozonolysis in a smog chamber and implications for ambient environments. ACS Earth and Space Chemistry, 2022, 6, 2826-2835 Fan, F.; Feng, Y.; Feng, J.; Hu, M.; Ye, J.; Tian, M.; Chen, J.; Wang, S.; Fu, Q., Molecular Tracer Characterization during COVID-19 Pandemic in Shanghai: Changes in the Aerosol Aqueous Environment and Implications for Secondary Organic Aerosol Formation. ACS Earth and Space Chemistry, 2022, 6, 2812-2825 贾天蛟, 葛艳丽, 刘奔, 孙嘉胤, 吴雯潞, 叶建淮, 吴晟, 黎永杰, 傅宗玫, 陈琦. 岭南亚热带森林冠层大气挥发性有机物污染特征及区域人为源的影响. 环境工程技术学报, 2022 Zhang, J.; Wang, J.; Sun, Y.L.; Li, J.; Ninneman, M.; Ye, J.; Li, K.; Crandall, B.; Mao, J.; Xu, W.; Schwab, M.; Li, W.; Ge, X.; Chen, M.; Ying, Q.; Zhang, Q.; Schwab, J., Insights from ozone and particulate matter pollution control in New York City applied to Beijing. npj Climate and Atmospheric Science, 2022, 5, s41612-022-00309-8 Ohno, P.; Wang, J.; Mahrt, F.; Varelas, J.G.; Aruff, E.; Ye, J.; Qin, Y.; Kiland, K.J.; Bertram, A.K.; Thomson, R.J.; Martin, S.T., Gas-particle uptake and hygroscopic growth by organosulfate particles. ACS Earth and Space Chemistry, 2022, 6, 2481-2490 Ye, J.; Batista, C.E.; Zhao, T.; Campos, J.; Ma, Y.; Guimarães, P.; Ribeiro, I.O.; Medeiros, A.S.S.; Stewart, M.P.; Vilà-Guerau de Arellano, J.; Guenther, A.B.; Souza, R.A.F.; Martin, S.T., River winds and transport of forest volatiles in the Amazonian riparian ecoregion. Environmental Science & Technology, 2022, 56, 12667-12677 Journal cover Long, X.; Fu, T.-M.; Yang, X.; Tang, Y.; Zheng, Y.; Zhu, L.; Shen, H.; Ye, J.; Wang, C.; Wang, T.; Li, B., Efficient atmospheric transport of microplastics over Asia and adjacent oceans. Environmental Science & Technology, 2022, 56, 6243-6252 Aruff, E.; Wang, J.; Ye, J.; Ohno, P.; Qin, Y.; Stewart, M.; McKinney, K.; Di Carlo, P.; Martin, S. T., Partitioning of organonitrates in the production of secondary organic aerosols from α-pinene photo-oxidation. Environmental Science & Technology, 2022, 56, 5421-5429 Qin, Y.; Ye, J.; Ohno, P.; Liu, P.; Wang, J.; Fu, P.; Zhou, L.; Li, Y. J.; Martin, S. T.; Chan, C. K., Assessing the nonlinear effect of atmospheric variables on primary and oxygenated organic aerosol concentration using machine learning. ACS Earth and Space Chemistry, 2022, 6, 1059-1066 Shrivastava, M.; Rasool, Q.; Zhao, B.; Octaviani, M.; Zaveri, R.; Zelenyuk, A.; Gaudet, B.; Liu, Y.; Shilling, J.; Schneider, J.; Schulz, C.; Zöger, M.; Martin, S.; Ye, J.; Guenther, A.; Souza, R.; Wendisch, M.; Pöschl, U., Tight coupling of surface and in-plant biochemistry and convection governs key fine particulate components over the Amazon Rainforest. ACS Earth and Space Chemistry, 2022, 6, 380-390 Journal cover Ma, Y.; Xin, J.; Wang, Z.; Tian, Y.; Wu, L.; Tang, G.; Zhang, W.; Vilà-Guerau de Arellano, J.; Zhao, D.; Jia, D.; Ren, Y.; Gao, Z.; Shen, P.; Ye, J.; Martin, S., How do aerosols above the residual layer affect the planetary boundary layer height? Science of the Total Environment, 2022, 814, 151953 Wang, J.; Ge, X.; Sonya, C.; Ye, J.; Lei, Y.; Chen, M.; Zhang, Q., Influence of regional emission controls on the chemical composition, sources, and size distributions of submicron aerosols: Insights from the 2014 Nanjing Youth Olympic Games. Science of the Total Environment, 2022, 807, 150869 Qin, Y.; Ye, J.; Ohno, P.; Nah, T.; Martin, S., Temperature-dependent viscosity of organic materials characterized by atomic force microscope. Atmosphere, 2021, 12, 1476 Zhao, T.; Ye, J.; Ribeiro, I.O.; Ma, Y.; Hung H.-M.; Batista, C.E.; Stewart, M.P.; Guimarães, P.C.; Vilà-Guerau de Arellano, J.; Souza, R.; Martin, S.T., River winds and pollutant recirculation near the Manaus city in the central Amazon. Communications Earth & Environment, 2021, 2, 205 Qin, Y.; Ye, J.; Ohno, P.; Zhai, J.; Han, Y.; Liu, P.; Wang, J.; Zaveri, R.; Martin, S., Humidity dependence of the condensational growth of α-pinene secondary organic aerosol particles. Environmental Science & Technology, 2021, 55, 14360-14369 Liu, H.; Wang, Q.; Ye, J.; Su, X.; Zhang, T.; Zhang, Y.; Tian, J.; Dong, Y.; Chen, Y.; Zhu, C.; Han, Y.; Cao, J., Changes in source-specific black carbon aerosol and the induced radiative effects due to the COVID-19 lockdown. Geophysical Research Letters, 2021, 48, e2021GL092987. Ohno, P. E.; Qin, Y.; Ye, J.; Wang, J.; Bertram, A. K.; Martin, S. T., Fluorescence aerosol flow tube spectroscopy to detect liquid–liquid phase separation. ACS Earth and Space Chemistry, 2021, 5, 1223-1232. Liu, D.; Li, S.; Hu, D.; Kong, S.; Cheng, Y.; Wu, Y.; Ding, S.; Hu, K.; Zheng, S.; Yan, Q.; Zheng, H.; Zhao, D.; Tian, P.; Ye, J.; Huang, M.; Ding, D., Evolution of aerosol optical properties from wood smoke in real atmosphere influenced by burning phase and solar radiation. Environmental Science & Technology, 2021, 55, 5677-5688. Li, S.; Liu, D.; Hu, D.; Kong, S.; Wu, Y.; Ding, S.; Cheng, Y.; Qiu, H.; Zheng, S.; Yan, Q.; Zheng, H.; Hu, K.; Zhang, J.; Zhao, D.; Liu, Q.; Sheng, J.; Ye, J.; He, H.; Ding, D., Evolution of organic aerosol from wood smoke influenced by burning phase and solar radiation. Journal of Geophysical Research: Atmospheres, 2021, 126, e2021 Wang, J.#; Ye, J.#; Zhang, Q.; Zhao, J.; Wu, Y.; Li, J.; Liu, D.; Li, W.; Zhang, Y.; Wu, C.; Xie, C.; Qin, Y.; Lei, Y.; Guo, J.; Liu, P.; Li, Y.; Lee, H.C.; Hwang, S.; Zhang, J.; Liao, H.; Chen, M.; Sun, Y.; Ge, X.; Martin, S.T.; Jacob, D.J., Aqueous production of secondary organic aerosol from fossil fuel emissions in winter Beijing haze. Proceedings of the National Academy of Sciences of the United States of America, 2021, 118, e2022179118 Highly cited article & hot paper Ma, Y.#; Ye, J.*#; Ribeiro, I.O.; Vilà-Guerau de Arellano, J.; Xin, J.; Martin, S.T.*, Optimization and representativeness of atmospheric chemical sampling by hovering unmanned aerial vehicles over tropical forests. Earth and Space Science, 2021, 8, e2020EA001335 Wang, J.; Lei, Y.; Chen, Y.; Wu, Y.; Ge, X.; Shen, F.; Zhang, J.; Ye, J.; Nie, D.; Zhao, X.; Chen, M., Comparison of air pollutants and their health effects in two developed regions in China during the COVID-19 pandemic. Journal of Environmental Management, 2021, 287, 112296 Li, Y.; Liu, B.; Ye, J.; Jia, T.; Khuzestani, R.B.; Sun, J.Y.; Cheng, X.; Zheng, Y.; Wu, Cheng.; Xin, J.; Martin, S.T.; Li, Y.J.; Chen, Q., Unmanned aerial vehicle (UAV) measurements of volatile organic compounds over a subtropical forest in China and implications for emission heterogeneity. ACS Earth and Space Chemistry, 2021, 5, 247-256 Ye, J.*; Batista, C.E.; Guimarães, P.C.; Ribeiro, I.O.; Vidoudez, C.; Barbosa, R.G.; Oliveria, R.L.; Ma, Y.; Jardin, K.J.; Surratt, J.D.; Guenther, A.B.; Souza, R.A.F.; Martin, S.T.*, Near-canopy horizontal concentration heterogeneity of semivolatile oxygenated organic compounds and implications for 2-methyltetrols primary emissions. Environmental Science: Atmospheres, 2021, 1, 8-20 Best paper 2021, journal outside front cover, and highlighted by U.S. National Science Foundation Wang, Q.; Liu, H.; Ye, J.; Tian, J.; Zhang, Y.; Wang, M.; Liu, S.; Cao, J., Estimating absorption Ångström exponent of black carbon aerosol by coupling multiwavelength absorption with chemical composition. Environmental Science & TechnologyLetters, 2020, 8, 121-127 Wang, Q.; Li, L.; Zhou, J.; Ye, J.; Liu, H.; Zhang, Y.; Zhang, R.; Tian, J.; Chen, Y.; Wu, Y.; Ran, W.; Cao, J., Measurement report: Evaluation of sources and mixing state of black carbon aerosol under the background of emission reduction in the North China Plain: implications for radiative effect. Atmospheric Chemistry and Physics, 2020, 20, 15427-15442 Guimarães, P.; Ye, J.; Batista, C.; Barbosa, R.; Ribeiro, I.; Medeiros, A.; Zhao, T.; Hwang, W.-C.; Hung H.-M.; Souza, R.; Martin, S.T., Vertical profiles of atmospheric species concentrations and nighttime boundary layer structure in the dry season over an urban environment in the central Amazon collected by an unmanned aerial vehicle. Atmosphere, 2020, 11, 1371 Wang, J.; Ye, J.; Liu, D.; Wu, Y.; Zhao, J.; Xu, W.; Xie, C.; Shen, F.; Zhang, J.; Ohno, P.E.; Qin, Y.; Zhao, X.; Martin, S.T.; Lee, A.K.Y.; Fu, P.; Jacob, D.J.; Zhang, Q.; Sun, Y.; Chen, M.; Ge, X., Characterization of submicron organic particles in Beijing during summertime: comparison between SP-AMS and HR-AMS. Atmospheric Chemistry and Physics, 2020, 20, 14091-14102 Qin, Y.; Ye, J.; Ohno, P.E.; Lei, Y.; Wang, J.; Liu, P.; Thomson, R.; Martin, S.T., Synergistic uptake by acidic sulfate particles of gaseous mixtures of glyoxal and pinanediol. Environmental Science & Technology, 2020, 54, 11762-11770 Ma, Y.#; Ye, J.#; Xin, J.; Zhang, W.; Vilà-Guerau de Arellano, J.; Zhao, D.; Dai, L.; Wu, X.; Xia, X.; Tang, F.; Wand, Y.; Shen, P.; Lei, Y.; Martin, S.T., The stove, dome, and umbrella effects of atmospheric aerosol on the development of the planetary boundary layer in hazy regions. Geophysical Research Letters, 2020, 47, e2020GL087373 Wang, J.#; Li, J.#; Ye, J.#; Zhao, J.; Wu, Y.; Hu, J.; Liu, D.; Nie, D.; Shen, F.; Huang, X.; Huang, D.; Ji, D.; Sun, X.; Xu, W.; Guo, J.; Song, S.; Qin, Y.; Liu, P.; Liao, H.; Turner, J.R.; Martin, S.T.; Zhang, Q.; Chen, M.; Sun, Y.; Ge, X.; Jacob, D.J., Fast sulfate formation from oxidation of SO2 by NO2 and HONO observed in Beijing haze. Nature Communications, 2020, 11, 2844 Highly cited article Ribeiro, I.O.; Santos, E.O.; Batista, C.E.; Fernandes, K.S.; Ye, J.; Medeiros, A.S.; Oliveira, R.L.; Sá, S.S.; Sousa, T.R.; Kayano, M.T.; Andreoli, R.V.; Machado, C.M.D.; Surratt, J.D.; Duvoisin Jr., S.; Martin, S.T.; Souza, R.A.F., Impact of biomass burning on a metropolitan area in the Amazon during the 2015 El Niño: The enhancement of carbon monoxide and levoglucosan concentrations. Environmental Pollution, 2020, 260, 114029 Wang, Y; Wang, Q.; Ye, J.; Li, L.; Zhou, J.; Ran, W.; Zhang, R.; Wu, Y.; Cao, J., Chemical composition and sources of submicron aerosols in winter at a regional site in Beijing-Tianjin-Hebei region: implication for the Joint Action Plan. Science of the Total Environment, 2020, 719, 137547 Liu, B.; Wu, C.; Ma, N.; Chen, Q.; Li, Y.; Ye, J.; Martin, S.T.; Li, Y.J., Vertical profiling of fine particulate matter and black carbon by using unmanned aerial vehicle in Macau, China. Science of the Total Environment, 2020, 709, 136109 Tian, J.; Wang, Q.; Han, Y.; Ye, J.; Wang, P.; Pongpiachan, S.; Ni, H.; Zhou, Y.; Wang, M.; Zhao, Y.; Cao, J., Contributions of aerosol composition and sources to particulate optical properties in a southern coastal city of China. Atmospheric Research, 2020, 235, 104744 Han, Y.; Gong, Z.; Ye, J.; Liu, P.; McKinney, K.A.; Martin, S.T., Quantifying the role of the relative-humidity dependent physical state of organic particulate matter on the uptake of semivolatile organic molecules. Environmental Science & Technology, 2019, 53, 13209-13218 Wang, Q.; Ye, J.; Wang, Y.; Zhang, T.; Ran, W.; Wu, Y.; Tian, J.; Li, L.; Zhou, Y.; Ho, S.S.H.; Dang, B.; Zhang, Q.; Zhang, R.; Chen, Y.; Zhu, C.; Cao, J., Winter brown carbon absorption from primary emissions and secondary formation at a regional background site in the north China plain. Environmental Science & Technology, 2019, 53, 12389-12397 Guimarães, P.; Ye, J.; Batista, C.; Barbosa, R.; Ribeiro, I.; Medeiros, A.; Souza, R.; Martin, S.T., Vertical profiles of ozone concentration collected by an unmanned aerial vehicle and the mixing of the nighttime boundary layer over an Amazonian urban area. Atmosphere, 2019, 10, 599 Batista, C.E.#; Ye, J.*#; Ribeiro, I.O.; Guimarães, P.C.; Medeiros, A.; Barbosa, R.G.; Oliveria, R.L.; Duvoisin Jr.S.; Jardin, K.J.; Gu, D.; Guenther, A.B.; McKinney, K.A.; Martins, L.D.; Souza, R.A.F.*; Martin, S.T.*, Intermediate-scale horizontal isoprene concentrations in the near-canopy forest atmosphere and implications for emission heterogeneity. Proceedings of the National Academy of Sciences of the United States of America, 2019, 116, 19318-19323 Altmetric Top 5% High Attention, highlighted by Harvard News and other media outlets Wang, S.; Zhou, S.; Tao, W.; Tsui, W.G.; Ye, J.; Yu, J.Z.; Murphy, J.G.; McNeil, V.F.; Abbatt, J.P.D.; Chan, A.W.H., Organic peroxides and sulfur dioxide in aerosol: source of particulate sulfate. Environmental Science & Technology, 2019, 53, 10695-10704 Wang, Q.; Han, Y.; Ye, J.; Liu, S.; Pongpiachan, S.; Zhang, N.; Han, Y.; Tian, J.; Wu, C.; Long, X.; Zhang, Q.; Zhang, W.; Zhao, Z.; Cao, J., High contribution of secondary brown carbon to aerosol light absorption in the southeastern margin of Tibetan Plateau. Geophysical Research Letters, 2019, 46, 4962-4970 Wang, Y.; Wang, Q.; Ye, J.; Yan, M.; Qin, Q.; Prévôt, A.; Cao, J., A Review of Aerosol Chemical Composition and Sources in Representative Regions of China during Wintertime. Atmosphere, 2019, 10, 277 McKinney, K.A.; Wang, D.; Ye, J.; de Fouchier, J.-B.; Batista, C.E.; Guimarães, P.C.; Souza, R.A.F.; Alves, E.G.; Gu, D.; Guenther, A.B.; Martin, S.T., A sampler for atmospheric volatile organic compounds by copter unmanned aerial vehicles. Atmospheric Measurement Techniques, 2019, 12, 3123-3135. European Geosciences Union highlight article Wang, Y.; Chen, J.; Wang, Q.; Qin, Q.; Ye, J.; Han, Y.; Li, L.; Zhen, W.; Zhi, Q.; Zhang, Y.; Cao, J., Increased secondary aerosol contribution and possible processing on polluted winter days in China. Environment International, 2019, 127, 78-84 Ye, J.; Van Rooy, P.; Adam, C. H.; Jeong, C-H; Urch B.; Cocker, D. R.; Evans, G. J.; Chan, A. W. H., Predicting secondary organic aerosol enhancement in the presence of atmospherically relevant organic particles. ACS Earth and Space Chemistry,2018, 2, 1035-1046 Gong, Z.; Han, Y.; Liu, P.; Ye, J.; Keutsch, F. N.; McKinney, K.A.; Martin, S.T., Influence of particle physical state on the uptake of medium-sized organic molecules. Environmental Science & Technology, 2018, 52, 8381-8389 Ye, J.; Abbatt, J.P.D.; Chan, A.W.H., Novel pathway of SO2 oxidation in the atmosphere: reactions with monoterpene ozonolysis intermediates and secondary organic aerosol. Atmospheric Chemistry and Physics, 2018, 18, 5549-5565. European Geosciences Union highlight article Wang, S.; Ye, J.; Soong, R.; Wu, B.; Yu, L.; Simpson, A.; Chan, A.W.H., Relationship between chemical composition and oxidative potential of secondary organic aerosol from polycyclic aromatic hydrocarbons. Atmospheric Chemistry and Physics, 2018, 18, 3987-4003 Ye, J.; Salehi, S.; North, M.L.; Portelli, A.M.; Chow, C-W.; Chan, A.W.H., Development of a novel simulation reactor for chronic exposure to atmospheric particulate matter. Scientific Reports, 2017, 7, 42317 Ye, J.; Gordon, C.A.; Chan, A.W.H., Enhancement in secondary organic aerosol formation in the presence of preexisting organic particle. Environmental Science & Technology, 2016, 50, 3572-3579 Ye, J.; Hatano, S.; Abe, M.; Kishi, R.; Murata, Y.; Nakano, M.; Adam, W., A puckered singlet cyclopentane-1, 3-diyl: detection of the third isomer in homolysis. Chemistry-A European Journal, 2016, 22, 2299-2306. Inside cover & hot paper Gordon, C.A.; Ye, J.; Chan, A.W.H., Secondary organic aerosol formation enhanced by organic seeds of similar polarity at atmospherically relative humidity. STEM Fellowship Journal, 2015, 1, 6-10 Ye, ; Fujiwara, Y.; Abe, M., Substituent effect on the energy barrier for σ-bond formation from π-single-bonded species, singlet 2, 2-dialkoxycyclopentane-1, 3-diyls. Beilstein Journal of Organic Chemistry, 2013, 9, 925-933 Abe, M.; Ye, J.; Mishima, M., The chemistry of localized singlet 1, 3-diradicals (biradicals): from putative intermediates to persistent species and unusual molecules with a π-single bonded character. Chemical Society Reviews, 2012, 41, 3808-3820 新闻动态 更多新闻 欢迎ARISEN新成员 2022-09-02 The SUSTech Environmental Chamber is on the way! 2022-01-16 First field trip at CheBaLing National Nature Reserve 2021-09-30 团队成员 查看更多 PrevNext UpDown 加入团队 博士后岗位(1名)一、基本要求(1)35岁以下,在国内外知名高校环境科学与工程、大气科学、化学、材料等相关专业取得(三年以内)或即将取得博士学位;(2)热衷科研,责任心强,有良好的团队协作精神,具有独立从事科研工作的能力;(3)在大气化学外场观测和烟雾箱模拟等研究方向具有一定科研基础;(4)以第一作者在相关领域发表论文1篇以上;(5)具有良好的英文写作与交流能力。 二、岗位职责(1)与课题负责人共同制定研究计划,相对独立地开展课题研究并发表高水平学术论文;(2)协助课题组申报科研课题及承担相应的科学研究,积极以负责人身份依托课题组申请博士后科学基金、国家自然科学基金青年科学基金项目及其他国家、省、市级课题项目;(3)协助课题组建设和管理,参与博士生、硕士生和本科生的指导。 三、岗位待遇(1)博士后聘用期两年,年薪33万元起,含广东省生活补贴15万元及深圳市生活补贴6万元,并按深圳市有关规定参加社会保险及住房公积金。博士后福利费参照学校教职工标准发放。(2)特别优秀候选人可以申请校长卓越博士后,年薪可达50万元以上(含广东省及深圳市在站生活补贴)。(3)在站期间,可依托学校申请深圳市公租房,未依托学校使用深圳市公租房的博士后,可享受两年税前2800元/月的住房补贴。(4)拥有优良的工作环境和境内外合作交流机会,博士后在站期间享受两年共计2.5万学术交流经费资助。(5)课题组协助符合条件的博士后申请“广东省海外青年博士后引进项目”。即在世界排名前200名的高校(不含境内,排名以上一年度泰晤士、USNEWS、QS和上海交通大学的世界大学排行榜为准)获得博士学位,在广东省博士后设站单位从事博士后研究,并承诺在站2年以上的博士后,申请成功后省财政给予每名进站博士后资助60万元生活补贴(与广东省每年15万生活补贴不同时享受,与深圳市每年6万元生活补贴同时享受情况以深圳市规定为准);对获得本项目资助,出站后与广东省用人单位签订工作协议或劳动合同,并承诺连续在粤工作3年以上的博士后,省财政给予每人40万元住房补贴。(6)博士后出站选择留深从事科研工作,且与本市企事业单位签订3年以上劳动(聘用)合同的,可以申请深圳市博士后留深来深科研资助。深圳市政府给予每人每年10万元科研资助,共资助3年(以深圳市最新申报要求为准)。 四、应聘方式有意应聘者,请以“姓名+申请岗位”为标题将以下材料发送至yejh@sustech.edu.cn:(1)中英文个人简历(包含完整的科研经历和学术论文列表)(2)博士论文题目及摘要(3)1–3篇代表性论文全文(4)三位推荐人的姓名及联系方式(任职单位、联系电话和Email地址) 查看更多 联系我们 联系地址 广东省深圳市南山区学苑大道1088号南方科技大学 办公电话 电子邮箱 yejh@sustech.edu.cn