圈渝有

导师年轻有为，学术水平高，人非常好，指导学生认真负责, 课题靠谱，明年即将入职弗林德斯大学(Flinders University)。他带的第一批学生应该会比较开心，因为文章会发的很不错。

课题组主要利用扫描探针显微技术（SPM）研究各类材料的纳米尺度的纳米尺度上的电学，光学和磁学性质，包括先进功能材料，低能耗信息存储材料的纳米尺度表面与界面， 柔性纳米器件，能量收集以及生物可穿戴材料器件。课题组研究主要侧重于铁电多铁功能氧化物材料及其界面和拓扑结构， 复杂氧化物异质结以及界面，二维范德华材料，卤化钙钛矿太阳能电池，电池材料等。其中‘铁电压电薄膜与器件’课题方向是现成的课题。

有意者可以联系Pankaj Sharma博士（pankaj.sharma@flinders.edu.au）(请附英文简历)。

近年发表代表性文章有(大部分为一作或者通讯)：

1.        Ferroelectric order in van der Waals layered materials. Nature Reviews Materials 8.1 (2023): 25-40.
2.        Roadmap for Ferroelectric Domain Wall Nanoelectronics. Advanced Functional Materials 32, 2110263, 2022.
3.        Anisotropic ion migration and electronic conduction in van der Waals ferroelectric CuInP2S6." Nano letters 21, 995-1002, 2021
4.        Superior polarization retention through engineered wall pinning. Nature Commun. 11, 1-8, 2020.
5.        Ferroelectric semimetal. Science Advances 5, eaax5080, 2019
6.        Light and bias induced structural deformation in halide perovskites. Nature Commun. 10, 444, 2019.
7.        Stoichiometry effect on polar properties of LaAlO3/SrTiO3. Advanced Functional Materials 28, 1707159, 2018
8.        Non-volatile ferroelectric domain wall memory. Science Advances 3, e1700512, 2017.
9.        Hybrid MoS2–BaTiO3–SrRuO3 tunnel junctions. Nano Letters 17, 922, 2017.

Other recent interesting high-impact work (Nature Physics 13, 189, 2017; Adv. Electron. Mater. 2, 1600283, 2016; Nature Materials 14, 193, 2015 ; Nano Letters 15, 3547, 2015; ACS Nano 9, 8089, 2015.

英文简介：

PhD student positions in advanced scanning probe microscopy of functional materials in the group of Dr. Pankaj Sharma at the College of Science & Engineering, Flinders University, Bedford Park, Adelaide, Australia.

Our group currently has openings for PhD students. We employ a wide range of experimental material characterization techniques including cutting-edge scanning probe microscopy and spectroscopic techniques to study the properties of advanced functional materials, surfaces and interfaces at the nanometre length scales for potential applications in low-energy data storage, agile nanoelectronics, sustainable energy harvesting and biomedical devices and implants. The research focuses on (multi-) ferroelectrics, piezoelectrics, oxide heterostructures/interfaces, 2D van der Waals materials, halide perovskites, battery materials, and related electronic and energy materials among others.  

We are seeking highly motivated postgraduate students with research interests (broadly) in the synthesis and characterization of advanced functional and electronic materials. Students with degrees in materials science, physics, chemistry, mechanics, and engineering are encouraged to apply.

Please email Dr. Sharma (pankaj.sharma@flinders.edu.au) with your CV to discuss in further detail about how to apply.