Dr. pankaj sharmaÏÖÈθ¥ÁÖµÂ˹´óѧÀíѧԺ½²Ê¦£¬ÄêÇáÓÐΪ£¬Ñ§Êõˮƽ¸ß£¬È˷dz£ºÃ£¬Ö¸µ¼Ñ§ÉúÈÏÕ渺Ôð, ¿ÎÌâ¿¿Æ×£¬ÎÄպ᣽ñÄê¸ÕÄõ½°ÄÖÞµÄÃæÉÏdp£¬¿ÉÒÔÌṩȫ¶î½±Ñ§½ð2-3¸ö£¬½±Ñ§½ð33000 audÒ»Ä꣬»ú»áÄѵ㬲»Òª´í¹ý¡£
¿ÎÌâ×éÖ÷ÒªÊÇ×öɨÃè̽ÕëÏÔ΢¼¼Êõ£¨spm£©±íÕ÷¹¦ÄܲÄÁÏ£¬ÆäÖаüÀ¨£¬Ìúµç¶àÌú²ÄÁÏ£¬¶þά·¶µÂ»ª²ÄÁÏ¡£spmÄ£¿é°üÀ¨pfm, kpfm, c-afm, efm, mfmµÈ¡£Ï£ÍûÓÐspm²Ù×÷¾Ñ飬×îºÃÊÇ×ö¹ýÌúµç²ÄÁϵÄͬѧÁªÏµdr. pankaj¡£
½üÄê·¢±í´ú±íÐÔÎÄÕÂÓÐ(Ò»×÷»òÕßͨѶ)£º
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¨CBaTiO3¨CSrRuO3 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.
Ó¢Îļò½éÈçÏ£º
Full scholarship PhD student positions (33,000 AUD/year) available in the Advanced Scanning Probe Microscopy of Functional Materials group of Dr Pankaj Sharma at the College of Science & Engineering, Flinders University, Bedford Park, Adelaide, Australia. We employ a wide range of experimental material characterization techniques including cutting-edge scanning probe microscopy (SPM) and spectroscopic techniques to study the properties of advanced functional materials, surfaces and interfaces at the nanometre length scales. The SPM technique includes piezoresponse force microscopy, Kelvin probe force microscopy, conductive atomic force microscopy, electrostatic and magnetic force microscopy, etc. The research focuses on (multi-) ferroelectrics, 2D van der Waals layered materials, and electronic devices.
Our group currently has several Australian Research Council-supported openings for PhD students. We seeking PhD candidates with experience and knowledge of ferroelectric thin films and devices, piezoresponse force microscopy, and other advanced scanning probe techniques for developing novel data storage and low-energy electronics applications. Students with a strong background in ferroelectrics and SPM are highly encouraged to apply (publications in these areas would be highly regarded).
Please email Dr. Sharma (pankaj.sharma@flinders.edu.au) with your CV to enquire about these PhD openings and further details on how to apply. |