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Lan Wang

From Wikipedia, the free encyclopedia

Lan Wang
NationalityAustralian
Alma materZhejiang University
National University of Singapore
University of Minnesota
Scientific career
FieldsMaterial Science
InstitutionsRMIT University

Professor Lan Wang is a Chinese-Australian material scientist known for expertise in materials synthesis and advanced materials characterisation.

He was appointed as an associate professor of physics at RMIT University in Melbourne, Australia in 2014.[1]

Career

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Wang has a Bachelor of Science in Physics (1993) and Master of Science in theoretical physics (1997) from Zhejiang University, China, a PhD in Physics from the National University of Singapore, Singapore (2001) and a PhD in Materials Sciences from the University of Minnesota, USA (2006).

He has held professional positions at XinDa Communication Solution Inc, China; Rush Presbyterian St Luke’s Medical Center, Chicago, USA; University of Minnesota, USA; and Nanyang Technological University, Singapore.[1]

From 2014 he has been Associate Professor, School of Applied Science, RMIT University.

Wang is a Theme Leader and node leader at ARC Centre of Excellence in Future Low-Energy Electronics Technologies (FLEET)[2] where he leads the Centre's nano-device fabrication research theme, as well as studying high-temperature quantum anomalous Hall systems in topological materials.

Past and current collaborations include the National University of Singapore (NUS), Hong Kong University (HKU), University of Southampton, and the China High Magnetic Field Lab at Chinese Academy of Science.

Expertise

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Wang's research has focused on topological condensed matter systems, spintronics, and magnetic materials. His team at RMIT grows single crystals, thin films and nanostructures, fabricating devices for electron and spin transport measurements for new generation spintronic devices.

  • Low-temperature and high-magnetic field electron and spin transport
  • topological insulators
  • magnetic materials
  • spintronic and magneto-electronic devices
  • device fabrication
  • growth of single crystals
  • thin films and nano-structures.

For material growth and characterization, Wang is experienced with ultra high vacuum (UHV) systems and thin-film deposition, single-crystal growth, and nanostructure growth. For device fabrication he is experienced in E-beam and photo lithography. For characterising electric and magnetic properties of materials, he is experienced in standard magnetic measurements, measurements and analysis of the quantum oscillations of single crystalline systems in high magnetic field and low temperature, point-contact spectroscopy, gate-tuned electric transport in nano-devices, and measurements of magneto-electrical coupling effect.

Publications

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Wang has published over 100 papers with total citations over 2500, and an H-index of 26[3]

Selected publications

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  • Hard magnetic properties in nanoflake van der Waals Fe3GeTe2 (2018, selected in Nature Communication's monthly condensed-matter highlights) [4]
  • Electrically tunable in-plane anisotropic magnetoresistance in topological insulator BiSbTeSe2 Nanodevices (2015)[5]
  • Large exchange bias after zero-field cooling from an unmagnetized state (2011)[6]
  • Ferromagnetism in dilute magnetic semiconductors through defect engineering: Li-doped ZnO (2010)[7]
  • Strongly correlated properties and enhanced thermoelectric response in Ca3Co4-xMxO9(M = Fe, Mn, and Cu) (2010) [8]
  • Ferromagnetism in ZnO nanowires derived from electro-deposition on AAO template and subsequent oxidation (2008)[9]

Qualifications and international journal roles

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References

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  1. ^ a b "Associate Professor Lan Wang - RMIT University". www.rmit.edu.au. Retrieved 30 July 2018.
  2. ^ "FLEET Team - ARC Centre of Excellence in Future Low-Energy Electronics Technologies". www.fleet.org.au. Retrieved 30 July 2018.
  3. ^ "Scopus preview - Scopus - Author details (Wang, Lan)". www.scopus.com. Retrieved 30 July 2018.
  4. ^ Tan, Cheng; Lee, Jinhwan; Jung, Soon-Gil; Park, Tuson; Albarakati, Sultan; Partridge, James; Field, Matthew R.; McCulloch, Dougal G.; Wang, Lan; Lee, Changgu (19 April 2018). "Hard magnetic properties in nanoflake van der Waals Fe3GeTe2". Nature Communications. 9 (1): 1554. doi:10.1038/s41467-018-04018-w. PMC 5908800. PMID 29674662.
  5. ^ Sulaev, Azat; Zeng, Minggang; Shen, Shun-Qing; Cho, Soon Khuen; Zhu, Wei Guang; Feng, Yuan Ping; Eremeev, Sergey V.; Kawazoe, Yoshiyuki; Shen, Lei; Wang, Lan (11 February 2015). "Electrically Tunable In-Plane Anisotropic Magnetoresistance in Topological Insulator BiSbTeSe2 Nanodevices". Nano Letters. 15 (3): 2061–2066. doi:10.1021/nl504956s. PMID 25665017.
  6. ^ Wang, B. M.; Liu, Y.; Ren, P.; Xia, B.; Ruan, K. B.; Yi, J. B.; Ding, J.; Li, X. G.; Wang, L. (17 February 2011). "Large Exchange Bias after Zero-Field Cooling from an Unmagnetized State". Physical Review Letters. 106 (7): 077203. arXiv:1101.4737. doi:10.1103/PhysRevLett.106.077203. PMID 21405539. S2CID 36603253.
  7. ^ Yi, J. B.; Lim, C. C.; Xing, G. Z.; Fan, H. M.; Van, L. H.; Huang, S. L.; Yang, K. S.; Huang, X. L.; Qin, X. B.; Wang, B. Y.; Wu, T.; Wang, L.; Zhang, H. T.; Gao, X. Y.; Liu, T.; Wee, A. T. S.; Feng, Y. P.; Ding, J. (2 April 2010). "Ferromagnetism in dilute magnetic semiconductors through defect engineering: Li-doped ZnO". Physical Review Letters. 104 (13): 137201. doi:10.1103/PhysRevLett.104.137201. PMID 20481907. S2CID 8480768.
  8. ^ Wang, Yang; Sui, Yu; Ren, Peng; Wang, Lan; Wang, Xianjie; Su, Wenhui; Fan, Hongjin (9 February 2010). "Strongly Correlated Properties and Enhanced Thermoelectric Response in Ca3Co4−xMxO9(M = Fe, Mn, and Cu)†". Chemistry of Materials. 22 (3): 1155–1163. doi:10.1021/cm902483a.
  9. ^ Yi, J. B.; Pan, H.; Lin, J. Y.; Ding, J.; Feng, Y. P.; Thongmee, S.; Liu, T.; Gong, H.; Wang, L. (18 March 2008). "Ferromagnetism in ZnO Nanowires Derived from Electro-deposition on AAO Template and Subsequent Oxidation". Advanced Materials. 20 (6): 1170–1174. doi:10.1002/adma.200702387. S2CID 96947036.