一、团队介绍
饶峰特聘教授(国家优青)团队主要研究方向包括:(1)相变存储器材料的制备、性能、机理与器件;(2)发光材料(稀土/半导体)的制备、性能、机理与应用;(3)二维电子材料、能源材料的制备、性能与应用;(4)材料在原位外场作用下的透射电子学及机理研究;(5)机械能-光能转换与应用、柔性微纳器件研究;(6)相变材料、二维材料及锂离子电池材料性能的理论模拟研究。
团队主要成果如下:
I. 相变材料及存储器 (饶峰教授fengrao@szu.edu.cn)
1. Reducing the stochasticity of crystal nucleation to enable sub-nanosecond memory writing, Science, 2017, 358, 1423-1427.
2. Direct observation of metastable face-centered cubic Sb2Te3 crystal, Nano Research, 2016, 9, 3453.
3. Direct observation of titanium-centered octahedral in titanium-antimony-tellurium phase-change material, Nature Communications, 2015, 5, 10040.
4. One order of magnitude faster phase change at reduced power in Ti-Sb-Te, Nature Communications, 2014, 5, 4086.
II. 发光材料及器件 (陈献助理教授x.chen87@outlook.com)
1. Core-shell-shell upconversion nanoparticles with enhanced emission for wireless optogenetic inhibition, Nano Letters, 2018, 18, 948-956.
2. Energy migration upconversion in Ce(III)-doped heterogeneous core-shell nanoparticles, Small, 2017, 43, 170149.
3. Confining exciton migration in upconversion nanoparticles towards deep ultraviolet lasing, Nature Communications, 2016, 7, 10304.
4. Photon upconversion in core-shell nanoparticles, Chemical Society Reviews, 2015, 44, 1318-1330.
III. 二维材料及能源材料性能的理论研究 (朱家杰研究员jzhu1986@szu.edu.cn)
1. Stress-enhanced lithiation in MAX compounds for battery applications, Applied Materials Today, 2017, 9, 192-195.
2. P and Si functionalized MXenes for metal-ion battery applications, 2D Materials, 2017, 4, 025073.
3. Silicene/germanene on MgX2 (X = Cl, Br, and I) for Li-ion battery applications, Nanoscale, 2016, 8, 7272-7277.
4. Stability and electronic properties of silicene on WSe2, Journal of Materials Chemistry C, 2015, 3, 3946-3953.
IV. 二维材料及原位电子学研究 (李培峰副研究员peifengli@szu.edu.cn)
1. In situ atomic-scale analysis of Rayleigh instability in ultrathin gold nanowires, Nano Research, 2018, 11, 625-632.
2. In situ TEM investigation on ultrafast reversible lithiation and delithiation cycling of Sn@C yolk-shell nanoparticles as anodes for lithium ion batteries, Nano Energy, 2017, 40, 187-194.
3. In situ nanomechanical characterization of multilayer MoS2 membranes: from intraplanar to interplanar fracture, Nanoscale, 2017, 9, 9119-9128.
4. In situ transmission electron microscopy investigation on fatigue behavior of single ZnO wires under high-cycle strain, Nano Letters, 2014, 14, 480-485.
V.机械能-光能转换与柔性微纳器件研究 (位小艳副研究员xywei18@szu.edu.cn)
1. High-intensity triboelectrification-induced electroluminescence by micro-sized contacts for self-powered display and illumination, Advanced Materials Interfaces, 2018, 5, 1701063.
2. Dynamic triboelectrification-induced electroluminescence and its use in visualized sensing, Advanced Materials, 2016, 28, 6656-6664.
3. Interface-free area-scalable self-powered electroluminescent system driven by triboelectric generator, Scientific Reports, 2015, 5, 13658.
4. Surface-charge engineering for high-performance triboelectric nanogenerator based on identical electrification materials, Nano Energy, 2014, 10, 83-89.
二、应聘条件
(1)具有物理、材料、化学、光学等相关学科博士学位或3个月内可以完成论文答辩;有电子器件设计与制备相关经验者优先;
(2)年龄不超过35周岁;
(3)有较好的中英文写作水平、团队协作能力与开拓进取精神。
三、聘期待遇(年薪税后25万元以上)
(1)按深圳市政府博士后研究资助规定,开题报告和中期考核合格后各可获得深圳市提供的补助,每期12万元(免税,极有可能会上调到15万元);
(2)每月发放2240元房补(免税),发放24个月;
(3)每月工资不低于9000元(税前,非用人成本);
(4)住房公积金;
(5)350元/月误餐补助,每年发放10个月;
(6)提供周转房;
(7)博士后人员进站,可自愿选择落户深圳市;选择落户深圳市的,其配偶及未成年子女可办理随迁入户;博士后子女入托、入学等按深圳市相关条例执行;
(8)超出基础科研考核指标的绩效奖励:在权威期刊发表学术论文或者获得国家级科研项目的博士后,深圳大学按规定给予科研奖励或配套资助;
(9)申请者若年龄小于33周岁,博士毕业一年以内,且发表过3篇二区以上论文或在TOP期刊发过2篇一区以上论文,将享受博士后入职奖励计划。
四、应聘材料及程序
应聘者请将个人简历、发表论文以及博士学位(若能提供)发送至fengrao@szu.edu.cn(饶峰教授)、x.chen87@outlook.com(陈献助理教授)、jzhu1986@szu.edu.cn(朱家杰研究员)、peifengli@szu.edu.cn(李培峰副研究员)、xywei18@szu.edu.cn(位小艳副研究员)。
五、深圳大学流动站招收博士后工作指南
更多关于深圳大学流动站招收博士后工作指南的详情请参考深圳大学人力资源部网站的详细介绍:http://hr.szu.edu.cn/portal.php?mod=view&aid=261。
(来源:“材料人”微信公众号)