Name : Lan Wang
Gender: Male
Birthday: Oct, 1972
Email: wanglan@hfut.edu.cn
Present Appointment: HuBing Professor II (Distinguished Professor), School of Physics, Hefei University of Technology
Academic Qualifications:
· January 2006 Ph.D in Materials Sciences (University of Minnesota-twin cities,USA Advisor: Professor Chris Leighton)
· Aug 2001 Ph.D in Physics (National University of Singapore, Singapore
Advisors:Professor Jun Ding and Professor Yuan Ping Feng
· March 1997 Msc in theoretical physics at ZheJiang University, China
· Jun 1993 Bachelor of Science in Physics at ZheJiang University, China (Zhu Ke Zhen scholarship, the highest honour of ZheJiang University)
· Working Experience:
· 2023 – present HuBing Professor II (Distinguished Professor), School of Physics, Hefei University of Technology
· 2023- present Honorary Professor, RMIT University
· Jan 2019-2023 RMIT Node Leader of ARC Centre of Excellence – Future Low Energy Electronics Technologies
· 2017-2023 Leader of Theme B (Nanodevice Fabrication) of ARC Centre of Excellence – Future Low Energy Electronics Technologies
· 2014 – 2023 Associate Professor, School of Science, RMIT University
· 2006 – 2014 Assistant Professor, Division of Physics and Applied Physics, School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore
· 2002 – 2003 Teaching Assistant, Department of Chemical Engineering and Materials Science, University of Minnesota - twin cities, USA
· 1997 – 1998 Clinic Assistant, Department of Radiation Oncology and Nuclear Medicine, Rush Presbyterian St Luke’s Medical Center, Chicago, USA
· Mar - Aug 1997 Electric Engineer, XinDa Communication Solution Inc, China
Research Fields:
2D materials and devices, Topological insulator, spintronics, magnetic materials and physics
Expertise:
l Growth and characterization of materials
i. Ultra high vacuum (UHV) systems and thin film deposition
Dr Lan Wang has many years of experience of the usage of UHV sputtering systems and Laser MBE systems. Using UHV sputtering systems and Laser MBE system, he has grown high quality Fe/Cr wedged bi-layer structure, BiFeO3 thin film, LSMO/BTO oxide heterostructure, etc.
ii. Single crystal growth
Dr. Lan Wang has many years of experience of single crystal growth. He has grown several kinds of single crystals, including Co1-xFexS2 crystal (chemical vapor transport method), (La,Pb)(Mn,Co)O3 (flux method), Bi2Se3 (modified Bridgeman method), and (Bi1-xSbx)2(Te1xSex)3 (modified Bridgeman method).
iii. Nanostructure growth
Recently, Dr. Lan Wang's group in Singapore has grown high quality Bi2Se3 and Beta-Ag2Te nanostructure using chemical vapor deposition method for the research of topological insulator.
iv. Bulk metallic ferromagnetic alloy
Dr. Lan Wang is familiar with the synthesis of polycrystalline bulk metallic alloy using arc- melting system.
Device fabrication
Familiar with microfabrication and nanofabrication techniques.
l 2D materials and van der Waals heterostructure fabrication
Dry transfer technique for the fabrication of van der Waals heterostructure
l Characterization of electric and magnetic properties of materials
i. All kinds of magnetic measurements
ii. Measurements and analysis of the quantum oscillations of single crystalline systems in high magnetic field and low temperature
iii. Point contact spectroscopy (Point contact Andreev reflection)
iv. Gate tuned electric transport in nano-devices
v. Measurements of magneto-electrical coupling effect
l Designed and fabricated special instruments
i. A system for low temperature point contact spectroscopy
ii. A system for the measurement of magneto-electrical coupling effect
iii. A second harmonic measurement system for spin transfer torque measurements
iv. A dry transfer system for fabricating van der Waals heterostructure
v. A special designed sputtering system for the growth of sulfide thin film
vi. A low temperature high resolution photo-current measurement system
Research Grants:
Awarded in Singapore (2007 -2014)
Grants Awarded |
S/N
|
Status: PI, Co-PI, Collaborator
|
Project Title (Project ID / Account No.)
|
Funding Agency/ies
|
Amount Awarded (S$) |
Duration of Award (MM-YY to MM-YY)
|
AcRF |
Non-AcRF |
|
1 |
PI |
Spintronics Based on Tunable Highly Spin Polarized Systems (SERC Grant NO. 062 101 0030) |
A*star |
|
315,540 |
Jan-2007 to July-2010 |
2 |
PI |
Perovskite oxides based spintronics (RG 59/06) |
AcRF Tier 1 (MOE) |
230,735 |
|
Sep-2006 to Sep-2009 |
3 |
Co-PI |
Magneto-optical Spectroscopy of tunable highly spin polarized Ferromagnetic systems (Official No: T207B1217) (ARC 26/07) |
AcRF Tier 2 (MOE) |
Co-share ~200,000 |
|
Jan-2008 to Jan-2011 |
4 |
PI |
Multi-functional spintronic materials and devices |
NRF |
|
1,238,674.44 |
April-2008 to Oct-2013 |
5 |
PI |
Quantum transport and optical spectroscopy studies of topological insulator |
AcRF Tier 2 (MOE) |
820,200 |
|
Aril-2011 to April-2014 |
Awarded in Australia (2014 - 2022)
Grants Awarded |
S/N
|
Status: CI, PI, and AI
|
Project Title (Project ID / Account No.)
|
Funding Agency/ies
|
Amount Awarded (AUD) |
Duration of Award (MM-YY to MM-YY)
|
ARC/Industry |
RMIT |
|
1 |
CI |
ARC Center of Excellence – Future Low Energy Electronics Technologies |
Australia Research Council (ARC) |
A$1,539,789 (in my account) |
A$513,263 (in my account) |
Jan-2017 to Dec-2023 |
|
2 |
Lead CI |
RMIT University – Lan Wang start-up |
RMIT University |
|
~A$500,000 |
Jan -2015 – Dec 2016 |
|
3 |
Lead CI |
Industrial funding from Lockheed Martin |
Lockheed Martin PTY LTD |
A$ 280,283 |
|
2019 -2020 |
|
4 |
Lead CI of RMIT |
ARC Linkage Infrastructure Equipment and Facilities - Magnetometry Facility for Molecular and Nanoscale Materials) |
|
A$ 167,400 |
A$ 250,000 |
2021-2022 |
|
5 |
Lead CI of RMIT |
ARC Linkage Infrastructure Equipment and Facilities - Facility for Electric & Magnetic Probes of Materials at Extreme Conditions |
|
A$419,866 |
A$500,000 |
2018-2019 |
Awarded in China (2023 – present)
Grants Awarded |
S/N
|
Status: CI, PI, and AI
|
Project Title (Project ID / Account No.)
|
Funding Agency/ies
|
Amount Awarded (RMB) |
Duration of Award (MM-YY to MM-YY)
|
NEFC |
Other |
|
1 |
CI |
Hefei University of Technology Start-up |
Hefei University of Technology |
|
¥15,000,000 |
2023 -2024 |
|
2 |
CI |
Investigation the enhancement of inter-layer coupling in van der Waals heterostructures |
National Science Foundation of China |
¥530,000 |
|
Jan - 2024 – Dec 2027 |
Students Supervised:
14 PhD, 2 Masters
Recent Important International Conference:
Invited talk for American Physical Society (APS) Marching Meeting 2022
Editor for International Journals:
2014-2019, Editorial board member of Scientific Reports (A prestigious scientific journal with impact factor of 5.228.
Reviewer for International Journals:
Science, Nature, Nature Materials, Physical Review Letters, Nature communications, Advanced Materials, Nano Letters, Applied Physics Letters, Journal of Applied Physics, Journal of Physics-condensed matter, IEEE Transactions magnetics, AIP advances, Scientific Reports, Physical Review B, etc.
ORCID: https://orcid.org/0000-0001-7124-2718
Publications:
Total citations > 6000, H-index: 44 (Google)
I have made significant achievements in the field of nanoelectronics and condensed matter physics. I have published ~130 articles in many prestigious journals, including many in top journals, such as Physical Review Letters, Nature Communications, Science Advances, Advanced Materials, Nano Letters. I have received over 6000 citations, and my h-index is 44 (Google Scholar March 2023). I was also invited by Nature Materials to write News & Views.
2023
(1) Cheng Tan, Ji-Hai Liao, Guolin Zheng , Meri Algarni , Jia-Yi Lin, Xiang Ma , Edwin L. H. Mayes, Matthew R. Field, Sultan Albarakati, Majid Panahandeh-Fard, Saleh Alzahrani, Guopeng Wang, Yuanjun Yang , Dimitrie Culcer, James Partridge, Mingliang Tian, Bin Xiang , Yu-Jun Zhao , and Lan Wang, “Room-Temperature Magnetic Phase Transition in an Electrically Tuned van der Waals Ferromagnet”, Physical Review Letters, 131, 166703 (2023)
(2) Guolin Zheng, Cheng Tan, Zheng Chen, Maoyuan Wang, Xiangde Zhu, Sultan Albarakati, Meri Algarni, James Partridge, Lawrence Farrar, Jianhui Zhou, Wei Ning, Mingliang Tian, Michael S Fuhrer, Lan Wang, “Electrically controlled superconductor-to-failed insulator transition and giant anomalous Hall effect in kagome metal CsV3Sb5 nanoflakes”, Nature Communications 14, 678 (2023)
(3) Meri Algarni, Hongwei Zhang, Guolin Zheng, Jianhui Zhou, Cheng Tan, Sultan Albarakati, James Partridge, Edwin LH Mayes, Lawrence Farrar, Yuyan Han, Min Wu, Xiangde Zhu, Jin Tang, Wensen Wei, Wenshuai Gao, Wei Ning, Mingliang Tian, Lan Wang, “Carrier and thickness mediated ferromagnetism in chiral magnet Mn1/3TaS2 nanoflakes”, Journal of Applied Physics 133, 113902 (2023)
(4) Chunsheng Wang, Jie Wang, Wen-Qiang Xie, Gaojie Zhang, Hao Wu, Jianhui Zhou, Xiangde Zhu, Wei Ning, Guopeng Wang, Cheng Tan, Lan Wang, Haifeng Du, Yu-Jun Zhao, Haixing Chang, Guolin Zheng, Wen-Tong Geng, Mingliang Tian, “Sign-tunable exchange bias effect in proton-intercalated Fe3GeTe2 nanoflakes”, Physical Review B 107, L140409 (2023)
(5) Linlin An, Jianguo Si, Xiangde Zhu, Chuanying Xi, Nanyang Xu, Yuanjun Yang, Lan Wang, Wei Ning, Wenjian Lu, Mingliang Tian, “Large linear magnetoresistance and nontrivial band topology in In3Rh”, Applied Physics Letters, 122, 203101 (2023)
(6) Prashant Kumar, Saurabh Pathak, Arjun Singh, Komal Jain, H Khanduri, Lan Wang, James Partridge, RP Pant, Materials Today: Proceedings, https://doi.org/10.1016/j.matpr.2023.05.456 (2003)
(7) Prashant Kumar, H Khanduri, Arjun Singh, Komal Jain, Saurabh Pathak, Arvind Gautam, Lan Wang, RP Pant, Design and Development of Ferrofluids Materials, (2003)
2022
(8) Islay O Robertson, Cheng Tan, Sam C Scholt”en, Alexander J Healey, Gabriel J Abrahams, Guolin Zheng, Aurélien Manchon, Lan Wang, Jean-Philippe Tetienne. “Imaging current control of magnetization in Fe3GeTe2 with a widefield nitrogen-vacancy microscope” 2D Materials 10, 015023 (2022)
(9) Zhihao Lei, CI Sathish, Xun Geng, Xinwei Guan, Yanpeng Liu, Lan Wang, Liang Qiao, Ajayan Vinu, Jiabao Yi, “Manipulation of ferromagnetism in intrinsic two-dimensional magnetic and nonmagnetic materials”, Matter 5, 4212 (2022)
(10) Albarakati Sultan, Xie Wen-Qiang, Tan Cheng, Zheng Guolin, Algarni Meri, Li Junbo, Partridge James, Spencer Michelle J. S., Farrar Lawrence, Xiong Yimin, Tian Mingliang, Wang Xiaolin, Zhao Yu-Jun, Wang Lan, “Electric Control of Exchange Bias Effect in FePS3–Fe5GeTe2 van der Waals Heterostructures”, Nano Letters 22, 6166 (2022)
(11) Lina Sang, Zhi Li, Guangsai Yang, Muhammad Nadeem, Lan Wang, Qikun Xue, Alexander R Hamilton, Xiaolin Wang, “Majorana zero modes in iron-based superconductors”, Matter 5, 1734 (2022)
(12) Peng Liu, Bin Lei, Xianhui Chen, Lan Wang, Xiaolin Wang, “Superior carrier tuning in ultrathin superconducting materials by electric-field gating”, Nature Review Physics 4, 336 (2022)
(13) Jing Shang, Shiying Shen, Lan Wang, Yandong Ma, Ting Liao, Yuantong Gu, Liangzhi Kou. “Stacking-Dependent Interlayer Ferroelectric Coupling and Moiré Domains in a Twisted AgBiP2Se6 Bilayer”, The Journal of Physical Chemistry Letters 13, 2027 (2022)
(14) Yong-Long Zhou, Hou-Jian Duan, Yong-jia Wu, Ming-Xun Deng, Lan Wang, Dimitrie Culcer, Rui-Qiang Wang. “Nonlinear antidamping spin-orbit torque originating from intraband transport on the warped surface of a topological insulator”, Physical Review B 105, 075415 (2022)
(15) Prashant Kumar, Saurabh Pathak, Arjun Singh, Komal Jain, H Khanduri, Lan Wang, Sang-Koog Kim, RP Pant, “Observation of intrinsic fluorescence in cobalt ferrite magnetic nanoparticles by Mn 2+ substitution and tuning the spin dynamics by cation distribution”, Journal of Materials Chemistry C 10, 12652 (2022)
2021
(16) Guolin Zheng, Maoyuan Wang, Xiangde Zhu, Cheng Tan, Jie Wang, Sultan Albarakati, Nuriyah Aloufi, Meri Algarni, Lawrence Farrar, Min Wu, Yugui Yao, Mingliang Tian, Jianhui Zhou, Lan Wang, “Tailoring Dzyaloshinskii–Moriya interaction in a transition metal dichalcogenide by dual-intercalation”. Nature Communications 12, 3696 (2021)
(17) Cheng Tan, Ming-Xun Deng, Guolin Zheng, Feixiang Xiang, Sultan Albarakati, Meri Algarni, Lawrence Farrar, Saleh Alzahrani, James Partridge, Jia Bao Yi, Alex R Hamilton, Rui-Qiang Wang, Lan Wang, ‘Spin-Momentum Locking Induced Anisotropic Magnetoresistance in Monolayer WTe2’, Nano Letters, 21, 21, 9005–9011 (2021)
(18) Pankaj Bhalla, Ming-Xun Deng, Rui-Qiang Wang, Lan Wang, Dimitrie Culcer. ‘Nonlinear Ballistic Response of Quantum Spin Hall Edge States’, Phys. Rev. Lett. 127, 206801 (2021)
(19) Cheng Tan, Wen-Qiang Xie, Guolin Zheng, Nuriyah Aloufi, Sultan Albarakati, Meri Algarni, Junbo Li, James Partridge, Dimitrie Culcer, Xiaolin Wang, Jia Bao Yi, Mingliang Tian, Yimin Xiong, Yu-Jun Zhao, Lan Wang, “Gate-Controlled Magnetic Phase Transition in a van der Waals Magnet Fe5GeTe2”. Nano Letters, DOI:10.1021/acs.nanolett.1c0 (2021)
(20) Weiyao Zhao, Chi Xuan Trang, Qile Li, Lei Chen, Zengji Yue, Abuduliken Bake, Cheng Tan, Lan Wang, Mitchell Nancarrow, Mark Edmonds, David Cortie, Xiaolin Wang, ‘Massive Dirac fermions and strong Shubnikov–de Haas oscillations in single crystals of the topological insulator Bi2Se3 doped with Sm and Fe’, Phys. Rev. B 104, 085153 (2021)
(21) Prashant Kumar, Saurabh Pathak, Arjun Singh, H Khanduri, Komal Jain, J Tawale, Lan Wang, GA Basheed, RP Pant, ‘Enhanced static and dynamic magnetic properties of PEG-400 coated CoFe2− xErxO4 (0.7≤ x≤ 0) nanoferrites’, Journal of Alloys and Compounds, 887, 161418 (2021)
(22) Zengji Yue, Kirrily Rule, Zhi Li, Weiyao Zhao, Lina Sang, Guangsai Yang, Cheng Tan, Lan Wang, Abuduliken Bake, Xiaolin Wang, “Cross-over from weak localization to anti-localization in rare earth doped TRS protected topological insulators”, Physics Letter A 385, 126953 (2021)
(23) Xiang Ding, Xiangyuan Cui, Ahmed Sohail, Peter P Murmu, John Kennedy, Nina Bao, Jun Ding, Rong Liu, Mingli Peng, Lan Wang, Xueze Chu, Ajayan Vinu, Simon P Ringer, Jiabao Yi, “Defects Engineering Induced Ultrahigh Magnetization in Rare Earth Element Nd-doped MoS2”, Advanced Quantum Technologies 4 (2), 2000093 (2021)
2020
(24) Guolin Zheng, Wen-Qiang Xie, Sultan Albarakati, Meri Algarni, Cheng Tan, Yihao Wang, Jingyang Peng, James Partridge, Lawrence Farrar, Jiabao Yi, Yimin Xiong, Mingliang Tian, Yu-Jun Zhao, Lan Wang, Gate-Tuned Interlayer Coupling in van der Waals Fe3GeTe2 Ferromagnet Nanoflakes, Physical Review Letters 125 (4), 047202 (2020)
(25) Hareem Khan, Nasir Mahmood, Ali Zavabeti, Aaron Elbourne, Md Ataur Rahman, Bao Yue Zhang, Vaishnavi Krishnamurthi, Paul Atkin, Mohammad B Ghasemian, Jiong Yang, Guolin Zheng, Anil R Ravindran, Sumeet Walia, Lan Wang, Salvy P Russo, Torben Daeneke, Yongxiang Li, Kourosh Kalantar-Zadeh, “Liquid metal-based synthesis of high performance monolayer SnS piezoelectric nanogenerators”, Nature Communications 11, 3449 (2020)
(26) Chang Liu, Golrokh Akhgar, James L Collins, Jack Hellerstedt, Cheng Tan, Lan Wang, Shaffique Adam, Michael S Fuhrer, Mark T Edmonds, “Quantum Transport in Air-Stable Na3Bi Thin Films”, ACS Applied Materials & Interfaces 12 (31), 35542-35546 (2020)
(27) Qiang Cao, Weiming Lü, X Renshaw Wang, Xinwei Guan, Lan Wang, Shishen Yan, Tom Wu, Xiaolin Wang, “Nonvolatile multistates memories for high-density data storage”, ACS Applied Materials & Interfaces 12 (38), 42449-42471 (2020)
(28) Sohail Ahmed, Xiang-Yuan Carl Cui, Xiang Ding, Peter Paul Murmu, Nina Bao, Xun Geng, Shibo Xi, Rong Liu, John Kennedy, Tom Wu, Lan Wang, Kiyonori Suzuki, Jun Ding, Xueze Chu, Sathish Russellraj Clastinrusselraj Indirathankam, Mingli Peng, Ajayan Vinu, Simon Peter Ringer, Jiabao Yi, “Colossal Magnetization and Giant Coercivity in Ion-Implanted (Nb and Co) MoS2 Crystals”, ACS Applied Materials & Interfaces 12 (52), 58140-58148 (2020)
(29) Sohail Ahmed, Xiang Ding, Peter P Murmu, Nina Bao, Rong Liu, John Kennedy, Lan Wang, Jun Ding, Tom Wu, Ajayan Vinu, Jiabao Yi, “High Coercivity and Magnetization in WSe2 by Co-doping Co and Nb”, Small 16 (12), 1903173 (2020) (2020)
(30) David A. Broadway, Sam C. Scholten, Cheng Tan, Nikolai Dontschuk, Scott E. Lillie, Brett C. Johnson, Guolin Zheng, Zhenhai Wang, Artem R. Oganov, Shangjie Tian, Chenghe Li, Hechang Lei, Lan Wang, Lloyd C. L. Hollenberg, Jean-Philippe Tetienne, “Imaging Domain Reversal in an Ultrathin Van der Waals Ferromagnet”, Advanced Materials 32, 2003314 (2020)
(31) Prashant Kumar, Saurabh Pathak, Arjun Singh, Himani Khanduri, GA Basheed, Lan Wang, RP Pant, “Microwave spin resonance investigation on the effect of the post-processing annealing of CoFe2O4 nanoparticles”, Nanoscale Advances 2 (5), 1939-1948 (2020)
(32) Azmira Jannat, Qifeng Yao, Ali Zavabeti, Nitu Syed, Bao Yue Zhang, Taimur Ahmed, Sruthi Kuriakose, Md Mohiuddin, Naresh Pillai, Farjana Haque, Guanghui Ren, Ningyan Cheng, Yi Du, Sherif Abdulkader Tawfik, Michelle JS Spencer, Billy J Murdoch, Lan Wang, Chris F McConville, Sumeet Walia, Torben Daeneke, Lianqing Zhu, Jian Zhen Ou, “Ordered-vacancy-enabled indium sulphide printed in wafer-scale with enhanced electron mobility”, Materials Horizons 7 (3), 827 (2020)
2019
(33) Sultan Albarakati, Cheng Tan, Zhong-Jia Chen, James G Partridge, Guolin Zheng, Lawrence Farrar, Edwin LH Mayes, Matthew R Field, Changgu Lee, Yihao Wang, Yiming Xiong, Mingliang Tian, Feixiang Xiang, Alex R Hamilton, Oleg A Tretiakov, Dimitrie Culcer, Yu-Jun Zhao, Lan Wang, “Antisymmetric magnetoresistance in van der Waals Fe3GeTe2/graphite/Fe3GeTe2 trilayer heterostructures”, Science advances 5 (7), eaaw0409, (2019)
2018
(34) C Tan, J Lee, S. G. Jung, T. Park, S. Albarakati, J. Partridge, M. R. Field, D. G. McCulloch, L. Wang, and C Lee, “Hard magnetic properties in nanoflake van der Waals Fe3GeTe2” Nature Communications, 9, 1554, DOI: 10.1038/s41467-018-04018-w (2018)
(35) Y Liu, J Besbas, Y Wang, P He, M. J. Chen, D. P. Zhu, Y Wu, J. M. Lee, L Wang, J Moon, N Koirala, S Oh, H Yang, “Direct visualization of current-induced spin accumulation in topological insulators”, Nature Communications, 9, 2492 , DOI: 10.1038/s41467-018-04939-6 (2018)
(36) Nitu Syed, Ali Zavabeti, Kibret A Messalea, Enrico Della Gaspera, Aaron Elbourne, Azmira Jannat, Md Mohiuddin, Bao Yue Zhang, Guolin Zheng, Lan Wang, Salvy P Russo, Dorna Esrafilzadeh, Chris F McConville, Kourosh Kalantar-Zadeh, Torben Daeneke, “Wafer-sized ultrathin gallium and indium nitride nanosheets through the ammonolysis of liquid metal derived oxides”, Journal of the American Chemical Society 141 (1), 104-108 (2018)
(37) Cheng Tan, Zengji Yue, Zhigao Dai, Qiaoliang Bao, Xiaolin Wang, Hua Lu, Lan Wang. “Nanograting-assisted generation of surface plasmon polaritons in Weyl semimetal WTe2”, Optical Materials 86, 421-423 (2018)
2017
(38) Xinbo Wang, L Cheng, Y Wu, D. P. Zhu, Lan Wang, J. X. J. Zhu, Hyunsoon Yang, , and Elbert Chia, “Topological-insulator-based terahertz modulator” Scientific Reports, 7, 13486 (2017)
(39) Alexander M. Dubrovkin, Giorgio Adamo, Jun Yin, Lan Wang, Cesare Soci, Qi Jie Wang, Nikolay I. Zheludev “Visible Range Plasmonic Modes on Topological Insulator Nanostructures
” Advanced Optical Materials, DOI: 10.1002/adom.201600768 (2017)
2016
(40) Z. J. Yue, B. Y. Cai, L. Wang, X. L. Wang, and M. Gu, “Intrinsically core-shell plasmonic dielectric nanostructures with ultrahigh refractive index”, Science Advances 2, e1501536 (2016)
2015
(41) A. Sulaev, M. G. Zeng, S. Q. Shen, S. K. Cho, W. G. Zhu, Y. P. Feng, S. Eremeev, Y. Kawazoe, L. Shen, and L. Wang, “Electrically tunable in-plane anisotropic magnetoresistance in topological insulator BiSbTeSe2 nanodevices”, Nano Letters 15, 2061 (2015)
(42) A. Sulaev, W. Zhu, K. L. Teo, L. Wang, “Gate-tuned quantum oscillations of topological surface states in b-Ag2Te”, Scientific Reports, 5, 8062 (2015)
(43) K. Banerjee, J. Besbas, P. Ren, L. Wang, H. Yang, “Magnetic proximity effect in the topological insulator BiSbTeSe2” Physica Status Solidi-Rapid Research Letters, 9, 175 (2015)
2014
(44) Liang Cheng, Chi Sin Tang, Saritha Nair, Bin Xia, Lan Wang, Jian-Xin Zhu, Elbert Chia, “Temperature-dependent ultrafast carrier and phonon dynamics of topological insulator Bi1.5Sb0.5Te1.8Se1.2" Applied Physics Letters, 104, 211906 (2014)
(45) Jun-Yu Ou, Jin-Kyu So, Giorgio Adamo, Azat Sulaev, Lan Wang and Nikolay I. Zheludev, "Ultraviolet and visible range plasmonics of a topological insulator", Nature Communications, 5:5139 doi 10.1038/ncomms6139 (2014)
(46) K. Banerjee, J. Son, P. Deorani, P. Ren, L. Wang, and Y. Hyunsoo, “Defect-induced negative magnetoresistance and surface state robustness in the topological insulator BiSbTeSe2’, Physical Review B, 90, 235427 (2014)
2013
(47) A. Sulaev, P. Ren, B Xia, Q. H. Lin, Z. P. Li,W. G. Zhu, M. Y. Han, S. Q. Shen, L. Wang “Experimental evidences of topological surface states of b-Ag2Te” AIP advances, 3, 032123, (2013)
(48) B. Xia, P. Ren, A. Sulaev, P. Liu, S.Q. Shen, and L. Wang, “Indications of surface dominated transport in topological insulator Bi1.5Sb0.5Te1.8Se1.2 nanoflake device”, Physical Review B, 87, 085442 (2013)
(49) H. W. Ho, W. D. Song, K. Bai, P. S. Branicio, Teck L. Tan, R. Ji, L. T. Law, C. M. Ng and L. Wang, "Correlation between optical absorption redshift and carrier density in phase change materials", Journal of Applied Physics, 114, 123504 (2013)
(50) B. M. Wang, L. You, P. Ren, X. M. Yin, Y. Peng, B. Xia, L. Wang, X. J. Yu, S. M. Poh, P. Yang, G. L. Yuan, L. Chen, A. Rusydi, J. L. Wang, "oxygen-driven anisotropic transport in ultra-thin manganite films", Nature Communications, 4, 2778 (2013)
(51) H. W. Ho, K. Bai, W. D. Song, T. L. Tan, C. M. Ng, L. Wang, “Optical Response of Electron arising from Delocalization in Sb2Te3 and Bi2Te3 films” Acta Materialia, 61, 1757, (2013)
(52) Chi Sin Tang, Bin Xia, Xingquan Zou, Shi Chen, Hong-Wei Ou, Lan Wang, Andrivo Rusydi, and Jian-Xin Zhu, Elbert Ee Min Chia, "Terahertz conductivity of topological surface states in Bi1.5Sb0.5Te1.8Se1.2" Scientific Reports, 3, 3513, (2013)
2012
(53) B. Xia, Zhi Peng Li, P. Ren, P. Liu, Zhi Li Dong, and L. Wang, “Anisotropic magnetoresistance in topological insulator Bi1.5Sb0.5Te1.8Se1.2/CoFe heterostructure” AIP advances, 2, 04171, (2012)
(54) P. Ren, S. K. Cho, P. Liu, Y. Lu, X. Zou, B. M. Wang, J. L. Wang, and L. Wang, “temperature controlled c axis elongated low symmetry phase BiFeO3 thin film on STO substrate. AIP advances, 3, 012110 (2013)
(55) P. Ren, P. Liu, Y. Lu, X. Zou, J.L. Wang and L. Wang, “Dielectric dynamics of epitaxial BiFeO3 thin film” AIP advances, 2, 022133 (2012)
(56) X. T. Fu, H. W. Ho, W.D. Song, R. Ji, and L. Wang, M. H. Hong, “Anomalous Phase Change Characteristics in Fe-Te Materials” Applied Physics Letters, 100, 201906 (2012)
(57) B.M. Wang, Y. Liu, B, Xia, P. Ren, and L. Wang, “Large exchange bias obtainable through zero-field cooling from an unmagnetized state in Ni-Mn-Sn alloys” Journal of Applied Physics, 111, 043912 (2012)
(58) Z.P. Li, M. Bosman, Z. Yang, P. Ren, L. Wang, L. Cao, X.T. Yu, C. Ke, M.B.H. Breese, A. Rusydi, W.G. Zhu, Z.L. Dong, Y.L. Foo, " Interface and Surface Cation Stoichiometry Modified by Oxygen Vacancies in Epitaxial Manganite Films "Advanced Functional Materials, 22, 4312 (2012)
(59) L. Shen, S.W. Yang, S.C. Xiang, T. Liu, B.C. Zhao, M.F. Ng, J. Goettlicher, J.B. Yi, S.A. Li, L. Wang, J. Ding, B.L. Chen, S.H. Wei, Y.P. Feng, "Origin of Long-Range Ferromagnetic Ordering in Metal-Organic Frameworks with Antiferromagnetic Dimeric-Cu(II) Building Units"Journal of the American Chemical Society, 134, 17286 (2012)
(60) R.T. Green, D.W. Boukhvalov, E.Z. Kurmaev, L.D. Finkelstein, H.W. Ho, K.B. Ruan, L. Wang, A. Moewes, "Room temperature ferromagnetism via unpaired dopant electrons and p-p coupling in carbon-doped In2O3: Experiment and theory", Physical Review B, 86, 115212 (2012)
2011
(61) B.M. Wang, Y. Liu, P. Ren, B. Xia, K.B. Ruan, J.B. Yi, J. Ding, X.G. Li, L. Wang, “Large zero field cooled exchange bias from unmagnetized state”, Physical Review Letters, 106, 077203, (2011)
(62) P. Peng, Z. Yang, W.G. Zhu, C.H.A. Huan, and L. Wang, “Origin of the colossal dielectric permittivity and magentocapacitance in LuFe2O4”, Journal of Applied Physics, 109, 074109, (2011)
(63) Z. Yang, C. Ke, L.L. Sun, W. Zhu, H.B. Lu, L. Wang, “Expitaxial growth of CoFe2O4 on SrTiO3 (100) and MgO (100)” Thin Solid Films, 519, 2067, (2011)
(64) B. Xia, Y. Wu, H.W. Ho, C. Ke, W.D. Song, C.H.A. Huan, J.L. Kuo, W.G. Zhu, and L. Wang, “A possible origin of room temperature ferromagnetism in Indium-Tin oxide thin film: surface spin polarization and ferromagnetism” Physica B, 406, 3166, (2011)
(65) V.K. Lakhani, B.C. Zhao, L. Wang, U.N. Trivedi, K.B. Modi, “Negative magnetization, magnetic anisotropy and magnetic ordering studies on Al(3+)-substituted copper ferrite” Journal of Alloys and Compounds, 509, 4861, (2011)
2010
(66) J.B. Yi, C.C. Lim, G.Z. Xing, H.M. Fan, L.H. Van, S.L. Huang, K.S. Yang, X.L. Huang, X.B. Qin, B.Y. Wang, T. Wu, L. Wang, H.T. Zhang, X.Y. Gao, T. Liu, A.T.S. Wee, Y. P. Feng, and J. Ding, “Ferromagnetism in Dilute magnetic semiconductor through defect engineering: Li-Doped ZnO”, Physical Review Letters, 104, 137201, (2010)
(67) W. Chen, W. Zhu, C. Ke, Z. Yang, L. Wang, X.F. Chen, O.K. Tan, “Impedance spectroscopy and conductivity mechanism of CoFe2O4-Pb(Zr0.53Ti0.47)O-3 composite thick films”, Journal of Alloys and Compounds, 508, 141, (2010)
(68) C. Ke, Z. Yang, W. Chen, J. S. Pan, W. Zhu, B. Ling, X. D. Zhou, and L. Wang, “Annealing induced anomalous electrical transport behavior in SnO2 thin films prepared by pulsed laser deposition”, Applied Physics Letters, 97, 092101 (2010)
(69) L.X. Guan, J.G. Tao, C.H.A. Huan, J.L. Kuo, L Wang, “Nonconventional magnetism in pristine and alkali doped In2O3: Density functional study”, Journal of Applied Physics, 108, 093911, (2010)
(70) K.B. Ruan, H.W. Ho, R.A. Khan, P. Ren, W.D. Song, A.C.H. Huan, L. Wang, “Ferromagnetism in carbon-doped In2O3 thin films”, Solid State Communications, 150, 2158, 2010
(71) J.G. Tao, L.X. Guan, J.S. Pan, C.H.A. Huan, L.Wang, J.L. Kuo, “Possible room temperature ferromagnetism of Li-doped anatase TiO2: A first-principles study”, Physics Letters A, 374, 4451, (2010)
(72) H.K, Liang, S.F. Yu, S.P. Lau, T.S. Herng, S.H. Tsang, L. Wang, J.S. Chen, K.S. Teng, “Optical and ferromagnetic characteristics of Mn doped ZnO thin films grown by filtered cathodic vacuum arc technique”, Thin Solid Films, 518, 7048, (2010)
(73) Z. Yang, C. Ke, L. L. Sun, W. Zhu, L. Wang, X. F. Chen, O. K. Tan, “Growth and structure investigation of multiferroic superlattices: [(La0.8Sr0.2MnO3)(4n)/(BaTiO3)(3n)](m)”, Solid State Communication, 150, 1432, (2010)
(74) T.Y. Chen, C.L. Chien, M. Manno, L. Wang, and C. Leighton, “Joule Heating in Ballistic Nanocontacts”, Physical Review B, 81, 020301, (2010)
(75) B. M. Wang, P Ren, Y. Liu, L. Wang, “Enhanced magnetoresistance through magnetic-field-induced phase transition in Ni 2MnGa co-doped with Co and Mn” Journal of Magnetism and Magnetic materials, 322, 715, (2010)
(76) Y. Wang, Y. Sui, P. Ren, L. Wang, X.J. Wang, W.H. Su, and H.J. Fan, “Strongly correlated properties and enhanced thermoelectric response in Ca3CO4-xMxO9 (M = Fe, Mn, and Cu), Chemistry of Materials, 22, 1155, (2010)
(77) Y. Wang, Y. Shi, P. Ren, L. Wang, X.J. Wang, W.H. Su, H.J. Fan, “Correlation between the Structural Distortions and Thermoelectric Characteristics in La(1-x)A(x)CoO(3) (A = Ca and Sr)”, Inorganic Chemistry 49, 3216, (2010)
2009
(78) T.S. Herng, S.P. Lau, C.S. Wei, L Wang, B.C. Zhao , M.Tanemura, and Y. Akaike, “Stable ferromagnetism in p-type carbon-doped ZnO nanoneedles”, Applied Physics Letters, 95, 133103, (2009)
(79) B. M. Wang, L. Wang, Y. Liu, B. C. Zhao, Y. Zhao, Y. Yang, H. Zhan “Strong thermal-history-dependent magnetoresistance behavior of metamagnetic shape memory alloy Ni49.5Mn34.5In16” Journal Applied Physics, 106, 063909, (2009)
(80) S.C. Li, P. Ren, B.C. Zhao, B. Xia, and L. Wang “Room temperature ferromagnetism of bulk polycrystalline (In0.85-xSnxFe0.15)2O3: charge carrier mediated or oxygen vacancy mediated?” Applied Physics Letters, 95,102101 (2009)
(81) J.G. Tao, L.X. Guan, J.S. Pan, C.H.A. Huan, L. Wang, J.L. Kuo, Z. Zhang, J.W. Chai, and S.J. Wang “Density functional study on ferromagnetism in nitrogen-doped anatase TiO2”, Applied Physics Letters, 95, 062505 (2009)
(82) T.S. Herng, S.P. Lau, L. Wang, B.C. Zhao, S.F. Yu, M. Tanemura and K.S. Teng, “Magnetotransport properties of p-type carbon doped ZnO thin films” Applied Physics Letters, 95, 012505 (2009)
(83) Z.R Xiao, X.F Fan, L.X. Guan, C.H.A Huan, J.L Kuo, and L. Wang, “First-principles study of the magnetization of oxygen-depleted In2O3 (001) surfaces”, Journal of Physics: Condensed Matters, 21, 272202, (2009)
(84) L.X. Guan, J.G. Tao, C.H.A. Huan, J.L. Kuo, and L. Wang, “First Principle study on ferromagnetism in nitrogen-doped In2O3”, Applied Physics Letters, 95, 012509, (2009)
(85) L.X. Guan, J.G. Tao, Z.R. Xiao, B.C. Zhao, X.F. Fan, C.H.A. Huan, J.L. Kuo, L. Wang, “The roles of Cu co-doping and oxygen vacancies on ferromagnetism in In2O3:Fe” Physical Review B 79, 184412 (2009)
(86) B.C. Zhao, B. Xia, H.W. Ho, Z.C. Fan, and L. Wang, “Anomalous Hall effect in Cu and Fe codoped In2O3 and ITO thin films” Physica B-Condensed Matter, 404, 2117, (2009)
(87) C. Leighton, D.D. Stauffer, Q. Huang, Y. Ren, B. Toby, S. E1-Khatib, M.A. Torija, J. Wu, J.W. Lynn, L. Wang, N.A. Frey, H. Srikanth, J.E. Davies, L. Liu, and J.F. Mitchell, “Coupled structural / magnetocrystalline anisotropy transitions in the doped perovskite cobaltite Pr1-xSrxCoO3”, Physical Review B, 79, 214420 (2009)
(88) S. Thomas, S.H. Al-Harthi, R.V. Ramanujan, B.C. Zhao, Y. Liu, L. Wang, M.R. Anantharaman, “Surface evolution of amorphous nanocolumns of Fe-Ni grown by oblique angle deposition”, Applied Physics Letters, 94, 063110, (2009)
(89) L. Liao, B. Yan, Y.F. Hao, G.Z. Xing, J.P. Liu, B.C. Zhao, Z.X. Shen, T. Wu, L. Wang, J.T.L. Thong, C.M. Li, W. Huang and T. Yu, “P-type electrical, photodonductive, and anomalous ferromagnetic properties of Cu2O nanowires”, Applied Physics Letters, 94, 113106 (2009)
(90) B.C. Zhao, Y.P. Sun, W.H. Song, and L. Wang, “Intrinsic phase separation in a single crystal of La0.98Pb0.02Mn0.74Co0.25O3”, Journal of Applied Physics, 105, 103917, (2009)
(91) B.M. Wang, L. Wang, B.C. Zhao, and Y. Liu, “A Second-order ferromagnetic transition in the martensitic state of Ni49.5Mn32.5Cu4Sn14: A critical behaviour study”, Journal of Applied Physics, 105, 023913, (2009)
2008
(92) B.C. Zhao, H.W. Ho, B. Xia, L.H. Tan, A.C. Huan and L. Wang, “Effect of oxygen vacancy on ferromagnetism and electric transport of bulk polycrystalline (In0.85Mo0.05Fe0.15)2O3” Applied Physics Letters, 93, 222506, (2008)
(93) H.W. Ho, B.C. Zhao, B. Xia, Y. Wu, S.L. Huang, J.G. Tao, A.C. Huan, and L. Wang, “Magnetic and magnetotransport properties in Cu and Fe Co-doped bulk In2O3 and ITO”, Journal of Physics: Condensed matters, 20, 475204, (2008)
(94) S.L. Huang, L.X. Guan, J.B. Yi, Y. Wu, Z.C. Fan, T.C. Sum, J. Ding, and L. Wang, “Magnetic and electric transport properties of Nd0.75Sr1.25Co1-xMnxO”, Journal of Applied Physics, 104, 123904, (2008)
(95) S.L. Huang, Z.C. Fan, J.B. Yi, Y, Wu, K.Q. Ruan, M. Li, J. Ding, and L. Wang, “Doping Effect on Magnetic and Transport Properties of Pr2-xSrxCoO4” Journal of Physics: Condensed matter, 20, 395213, (2008)
(96) B.M. Wang, Y. Liu, L, Wang, S.L. Huang, Y. Zhao , Y. Yang, and H. Zhang “Exchange bias and its training effect in the martensitic state of bulk polycrystalline Ni49.5Mn34.5In16” Journal of Applied Physics, 104, 043916, (2008)
(97) J.B.Yi, H. Pan, J.Y. Lin, J. Ding, Y.P. Feng, S. Thongmee, T. Liu, H. Gong, and L. Wang, “Ferromagnetism in undoped ZnO nanowires derived from electrodeposition on AAO template and subsequently oxidation”, Advanced Materials, 20, 1170, (2008)
(98) N. Wu, D. Wisbey, T. Komesu, Z.X. Yu, M. Manno, L. Wang, C. Leighton and P.A. Dowben, “The kinetic energy dependent effective Debye temperature for CoS2(100)”, Physics Letter A, 372, 2484, (2008)
(99) L.H. Van, J. Ding, M.H. Hong, Z.C. Fan, and L. Wang, “Comparison of magnetic property of Cu-, Al, And Li-doped ZnO dilute magnetic semiconductor thin films”, Surface Review and Letters, 15, 81 (2008)
2007
(100) C. Leighton, A. Cady, J.W. Freeland, M. Manno, L. Wang. K. Umemoto, R.M. Wentzcovitch, T.Y. Chen, C.L. Chien, P.L. Kuhns, M.J.R. Hoch, A.P. Reyes, W.G. Mooulton, E.D. Dahlberg, J. Checkelsky and J. Eckert, "Composition controlled spin polarization in Co1-xFexS2 alloys, A review" Journal of Physics. Condensed Matter, (review paper), 19, 315219 (2007).
(101) Z.X. Yu, M.A. Van Hove, S.Y. Tong, D. Wisbey, Y.B. Losovyj, N. Wu, M. Manno, L. Wang, C. Leighton, W.N Mei and P.A Dowben, “The structure of the CoS2 (100)-(1x1) surface” Journal of Physics. Condensed Matter 19, 156223 (2007)
(102) N. Wu, Y.B. Losovyj, D. Wisbey, K. Belashchenko, M. Manno, L. Wang, C. Leighton and P.A Dowben, “The electronic band structure of CoS2” Journal of Physics. Condensed Matter 19, 156224 (2007)
(103) T.S. Heng, S.P. Lau, S.F. Yu, H.Y. Yang, L. Wang, M. Tanemura, and J.S. Chen "Magentic anisotropy in the ferromagnetic Cu-doped ZnO nanoneedles" Applied Physics Letters 90, 032509 (2007)
(104) 2006
(105) P.L. Kuhns, M.J.G. Hoch, A.P. Reyes, W.G. Moulton, L. Wang, and C. Leighton "Evolution with composition of the d-band density of states at the Fermi level in highly spin-polarized Co1-xFexS2", Physical Review Letters, 96, 167208 (2006)
(106) L. Wang, T.Y. Chen, C.L. Chien, J.G. Checkelsky, J.C. Eckert, E.D. Dahlberg, K. Umemoto, R.M. Wentzcovitch and C Leighton “Composition controlled spin polarization in Co1-xFexS2: magnetic, electric, and thermodynamic properties” Physical Review B, 73, 144402 (2006)
(107) L. Wang and C. Leighton “Sulphur stoichiometry effects in highly spin polarized single crystal CoS2” Applied Physics Letters, 88, 232509 (2006)
(108) K. Umemoto, R.M. Wentzcovitch, L. Wang and C. Leighton “Electronic structure of highly spin polarized Co1-xFexS2” Phys. Stat. Sol. (b) 243, 2117 (2006)
(109) J. Parker, L. Wang, K.A. Steiner, P.A. Crowell and C. Leighton "Exchange bias as a prove of the in commensurate spin-density wave in epitaxial Fe/Cr(001)" Physical Review Letters, 97, 227206 (2006)
(110) H. M. Aarbogh, J. Wu, L. Wang, H. Zheng, J. F. Mitchell, C. Leighton "Magnetic and electronic properties of La1-xSrxCoO3 single crystals across the percolation" Physical Review B, 74, 134408 (2006)
Before 2006
(111) L. Wang, K. Umemoto, R.M. Wentzcovitch, T.Y. Chen, C.L. Chien, J.G. Checkelsky, J.C. Eckert, E.D. Dahlberg and C. Leighton “Co1-xFexS2: a tunable source of highly spin-polarized electrons”, Physical Review Letters, 94, 056602 (2005)
(112) L. Wang, T.Y. Chen and C. Leighton “Spin-dependent band structure effects and measurement of the spin polarization in the candidate half-metal CoS2”, Physical Review B 69, 094412 (2004)
(113) J. Ding, L. Wang, A. Roy, and J. Ghose, "Magnetic relaxation in spinel Mo-ferrite and Ti substituteed Mo-ferrite", European Physical Journal B 27, 49 (2002)
(114) H.Z. Kong, J. Ding, Z.L. Dong, L. Wang, T. White, and Y. Li, "Observation of clusters in Re60Fe30Al10 alloys and the associated magnetic properties” Journal of Physics D-Applied Physics 35 423, (2002)
(115) L. Wang, J. Ding, H.Z. Kong, Y. Li, and Y.P. Feng, "Monte Carlo simulation of a cluster system with strong interaction and random anisotropy” , Physical Review B 64, 214410 (2001)
(116) L. Wang, J. Ding, Y. Li, Y.P. Feng, and N.X. Phuc, "A model for magnetic ordering in inhomogeneous amorphous RE-Re-Al alloys”, Journal of Magnetism and Magnetic Materials 226, 1504 (2001)
(117) H.Z. Kong , J. Ding, L. Wang, and N.H. Dan, "Amorphous magnetic RE-Fe-Al alloys”, IEEE Transactions on Magnetics 37, 2500 (2001)
(118) L. Wang, J. Ding, Y. Li, N.X. Phuc, and N.H. Dan, "Model of ferromagnetic clusters in amorphous rare earth and transition metal alloys”, Journal of Applied Physics 89, 8046 (2001)
(119) H.Z. Kong, J. Ding, L. Wang, and Y. Li, "Bulk hard magnetic alloys in Nd-Fe-B system prepared by casting and melt spinning”, Materials Transactions 42, 674(2001)
(120) L. Wang, J. Ding, Y. Li, Y.P. Feng, X.Z. Wang, N.X. Phuc, and N.H. Dan, “A magnetic and Mossbauer study of melt-spun Nd60Fe30Al10”, Journal of Magnetism and Magnetic Materials 224, 143 (2001)
(121) L. Si, J. Ding, L. Wang, Y. Li, H. Tan, B. Yao, "Hard magnetic properties and magnetocaloric effect in amorphous NdFeAl ribbons”, Journal of Alloys and Compounds 316, 260 (2001)
(122) L. Wang, J. Ding, A. Roy, J. Ghose, Y. Li, and Y.P. Feng, "Cluster-glass behaviour of the substituted molybdenum ferrite: a magnetic and Mossbauer study”, Journal of Physics-Condensed Matter 12 9963 (2000)
(123) C.W. Ng, J. Ding, L. Wang, L.M. Gan, and C.H. Quek, "Thermal-induced micro structural changes of nickel-iron cyanide”, Journal of Physical Chemistry A 104, 8814 (2000)
(124) L. Wang, J. Ding, Y. Li, H.Z. Kong, Y.P. Feng, and X.Z. Wang, "A superferromagnetic approach for rapidly quenched Y60Fe30al10 alloys”, Journal of Physics-Condensed Matter 12, 4253 (2000)
(125) Y. Shi, J. Ding, Z.X. Shen, W.X. Sun, and L. Wang, "Strong uni-directional anisotropy in disordered NiFe2O4” Solid State Communications 115, 237 (2000)
(126) L. Wang, J. Ding, Y. Li, Y.P. Feng, and X.Z. Wang, "anomalous magnetic viscosity in bulk-amorphous materials”, Journal of Magnetism and Magnetic Materials 206, 127 (1999)
(127) L. Si, J. Ding, Y. Li, L. Wang and X.Z. Wang, "A structural, magnetic and Mossbauer investigation on melt-spun Nd0.33(Fe0.75Al0.25)0.67 ribbons" Journal of Physics-Condensed matter 11, 10557 (1999)
