肇慶學院電子與電氣工程學院研究生導師介紹(二)

發(fā)布時間:2023-04-12 編輯:考研派小莉
肇慶學院電子與電氣工程學院研究生導師介紹(二)

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肇慶學院電子與電氣工程學院研究生導師介紹(二) 正文

劉愉快 碩士導師
 
 
劉愉快 博士 副教授
聯(lián)系方式: liuyukuai@zqu.edu.cn


個人簡介
2009年于安徽大學應用物理系取得學士學位,2014年于中國科學技術大學獲得博士學位,2014年至2019年先后在南方科技大學和香港理工大學從事研究。目前主要研究方向:1)鐵電、壓電功能材料;2)磁性存儲研究;3)強關聯(lián)電子體系。參與多項國家級項目,并主持國自然基金1項。目前已在ACS Appl. Electron. Mater.、npj Quantum Materials、Appl. Phys. Lett.、Phys. Rev. B、Phys. Rev. Mater.、J. Magn. Magn. Mater.等SCI刊物發(fā)表多篇學術。現(xiàn)任肇慶學院物理系專業(yè)負責人。


主要承擔課程:
主要講授《原子物理學》、《固體物理學》和《大學物理》課程。


承擔科研項目:
[1] 校級項目:“反鐵磁材料的自旋輸運效應研究”,肇慶學院,2021-2023,主持
[2] 校級項目:個人啟動經(jīng)費,肇慶學院,2020年,主持
[3] 省級項目:“廣東省敏感陶瓷工程技術研究中心”,2020年,參與
[4] 國自然基金:“高存儲密度多鐵隧道結的制備與物性研究”,2016-2018年,主持


論著列表(論文、專著、教材、知識產(chǎn)權等):
[1] Y. k. Liu, S. X. Hu, B. Y. Zhao, X. R. Shi,* , X. Z. Zeng, C. W. Leung, C. W. Huang,* “Comparison of topotactic and magnetic structures for manganite oxide films”, Ceramics International, 48, 12515-12519 (2022)
[2] Y. K. Liu, J.M. Liang, H.F. Wong, S. M. Ng, C.L. Mak and C.W. Leung, “Strain dependent structure and anomalous Hall effect in Pt/Tb3Fe5O12/ Ga3Gd5O12 heterostructure grown on Y3Al5O12 substrates”, J. Magn. Magn. Mater., 536, 168130 (2021).
[3] H.F. Wong, S.M. Ng, W. Zhang, Y.K. Liu, P.K.J. Wong, C.S. Tang, K.K. Lam, X.W. Zhao, Z.G. Meng, L.F. Fei, W.F. Cheng, D. von Nordheim, W.Y. Wong, Z.R. Wang, B. Ploss, J.Y. Dai, C.L. Mak, A.T.S. Wee and C.W. Leung*, “Modulating Magnetism in Ferroelectric Polymer-Gated Perovskite Manganite Films with Moderate Gate Pulse Chains”, ACS Appl. Mater. Inter., 12, 56541 (2020)
[4] S. M. Ng, H. C. Wang, Y. K. Liu, H. F. Wong, H. M. Yau, C. H. Suen, Z. H. Wu, C. W. Leung, and Ji-Yan Dai*, “High-Temperature Anomalous Hall Effect in Transition Metal Dichalcogenide-Ferromagnetic Insulator Heterostructure”, ACS Nano 14, 7077 (2020)
[5] X.W. Zhao, H.F. Wong, Y.K. Liu, S.M. Ng, W.F. Cheng, C.L. Mak and C.W. Leung*, “Exchange bias effect in epitaxial La0.35Sr0.65MnO3/La0.7Sr0.3MnO3 bilayers: Impact of antiferromagnet growth conditions”, Vacuum, 175, 109280 (2020)
[6] Y. K. Liu, H.F. Wong, S. M. Ng, C.L. Mak and C.W. Leung, “Interfacial Tm3+ moment-driven anomalous Hall effect in Pt/Tm3Fe5O12 heterostructure”, J. Magn. Magn. Mater., 501, 166454 (2020)
[7] Y. K. Liu, H.F. Wong, X.Y. Guo, S.M. Ng, K.K. Lam, Y. Zhu, C.L. Mak and C.W. Leung, “Enhanced anomalous Hall effect in Pt/CoO heterostructures by ferrimagnetic insulating gating”, ACS Appl. Electron. Mater., 1, 1099-1104 (2019)
[8] Y. K. Liu, H.F. Wong, K.K. Lam, C.L. Mak and C.W. Leung, “Tuning ferromagnetic properties of LaMnO3 films by oxygen vacancies and strain”, J. Magn. Magn. Mater., 481, 85-92 (2019).
[9] X.W. Zhao, S. N. Dong, G. Y. Gao, Z. X. Xu, M. Xu, J. M. Yan, W. Y. Zhao, Y. K. Liu*, S. Y. Yan, J. X. Zhang, Y. Wang*, H. Z. Lu, X. G. Li, J. K. Furdyna, H. S. Luo, and R. K. Zheng*, “Reversible and nonvolatile manipulation of the electronic transport properties of topological insulators by ferroelectric polarization switching ”, npj Quantum Materials, 3, 52 (2018)
[10] Y. K. Liu, H.F. Wong, K.K. Lam, K.H. Chan, C.L. Mak and C.W. Leung*, “Anomalous Hall effect in Pt/Tb3Fe5O12 heterostructure: effect of compensation point”, J. Magn. Magn. Mater., 468, 235-240 (2018).

許莉 碩士導師
 
 

許莉  博士

聯(lián)系方式: lovexl20080618@126.com

 

個人簡介

2003年于安徽師范大學物理與電子信息學院獲得學士學位,2013年于華南理工大學材料科學與工程學院獲得博士學位,2013年至2016年在華南理工大學從事博士后研究員工作。2017年至2020年在中山大學光電材料與技術國家重點實驗室擔任專職副研究員。主要研究方向為材料表面吸附特性和電子學性質(zhì)等相關研究。目前在肇慶學院物理系從事教學和科研工作。

 

主要承擔課程

電動力學、大學物理

 

承擔科研項目

[1]“功能有機分子在有機-無機鈣鈦礦薄膜表面吸附特性和電子學性質(zhì)研究”, 財政部,教育部,2018.01-2020.12, 主持

[2] “分子間氫鍵誘導的表面手性組裝納米結構的調(diào)控機制研究”, 國家自然科學基金委,2015.01-2017.12,主持

[3] “固體表面分子吸附和手性組裝結構的調(diào)控機理研究”,中國博士后科學基金委, 2014.01-2015.12, 主持

[4] “分子表面吸附和手性組裝結構調(diào)控及其機理研究”,財政部,教育部, 2014.01-2015.12 主持

 

代表論著

[1] X.F. Zeng, X. R. Miao*, Y. Wang, M. X. Ke, H.Q. Zou, L.Xu*, et al. Solvent Co-adsorption Changing the Type of Halogen-Based Bonds Associated with the Position of Bromine Substituents Revealed by Scanning Tunneling Microscopy. J. Phys. Chem. C. 2021, 125, 26847-26856.

[2] Y. Y. He, Z. Y. Cai, J. Shao. L. Xu*, et al. Quaterrylene molecules on Ag (111): Self-assembly Behavior and Voltage Pulse Induced Trimer Formation. Phys. Chem. Chem. Phys. 2018, 20, 12217-12222.

[3] Y. Hu, K. Miao, L. Xu*, et al. Exploration of Chirality and Achirality of Self-Assembled Monolayer Formed by Unsymmetrically Substituted Fluorenone Derivative at the Liquid/Solid Interface. Adv. Mater.Interfaces. 2018, 5, 1700611.

[4] Y. Hu, K. Miao. L. Xu*, et al. One Chain Modified by −C5H10−: An Efficient Strategy on Fabricating Structural Diversity for 2D Self-Assembly, J. Phys. Chem. C. 2017, 121, 21449~21460.

[5] Y. Hu, K. Miao, L. Xu*, et al. Two side chains, three supramolecules: exploration of fluorenone derivatives towards crystal engineering, Phys. Chem. Chem. Phys. 2017, 19,19205~19216.

[6] Y. Hu, K. Miao, L. Xu*, et al. Effects of alkyl chain number and position on 2D self-assemblies. RSC Advances, 2017, 7, 32391~32398.

[7] Y. Hu, K. Miao, S. Peng L. Xu*, et al. STM Exploration of the Diverse Polymorphs for Tri-Substituted Anthraquinone Derivatives via Alkyl Chain Elongation. Adv. Mater. Interfaces. 2016, 20, 1600428

[8] K. Miao, Y. Hu, L. Xu*, et al. Hydroxylvs Carboxyl Substituent: Effects of Competitive and Cooperative Multiple Hydrogen Bonds on Concentration-Controlled Self-Assembly. J. Phys. Chem. C. 2016, 120, 14187–14197

[9] Y. Hu, K. Miao, S. Peng, L. Xu*, et al. Fabrication of chiral networks for tri-substituted anthraquinone derivative using molecular self-assembly. Phys. Chem. Chem. Phys. 2016 18, 13164-13168

[10] K. Miao, Y. Hu, B. Zha, L. Xu*, et al. Structural transition control between dipole−dipole and hydrogen bonds induced chirality and achirality. CrystEngComm. 2016, 18, 3019–3032

[11] Y. Hu, K. Miao, B. Zha, L. Xu*, et al. STM investigation of structural isomers: alkyl chain position induced self-assembly at liquid/solid interface. Phys. Chem. Chem. Phys. 2016, 18, 624 - 634

[12] Y. Hu, K. Miao, B. Zha, L. Xu*, et al. Side Chain Position, Length and Odd/Even Effects on 2 Self-Assembly of Mono-Substituted Anthraquinone Derivatives at Liquid/Solid Interface. RSC Adv. 2015, 5,93337–93346

[13] L. Xu, X. R. Miao*, L. H. Cui, et al. Concentration-Dependent Structure and Structural Transition from Chirality to Nonchirality at the Liquid-Solid Interface by Coassembly. Nanoscale 2015,7, 11734-11745

[14] L. Xu, X. R. Miao*, L. H. Cui, et al. Chiral Transition of the Supramolecular Assembly by Concentration Modulation at the Liquid/Solid Interface. J. Phys. Chem. C.2015, 119, 17920–17929

[15] L. Xu, X. R. Miao, W. L. Deng*, et al. Dipole-Controlled Self-Assembly of 2,7-Bis(n-alkoxy)-9-fluorenone: Odd-Even and Chain-Length Effects. J. Phys. Chem. C. 2013, 117, 12707-12714.

[16] L. Xu, X. R. Miao, W. L. Deng*, et al. Hydrogen Bonds Induce Polymorphous Phase Transitions in 2D Organic Nanostructures. Chem. - Asia. J. 2013, 8, 926-933.

[17] L. Xu, X. R. Miao, W. L. Deng*, et al. Self-Assembly Polymorphism: Solvent-Responsive two-Dimensional morphologies of 2,7-Ditridecyloxy-9-fluorenone by Scanning Tunneling Microscopy. J. Phys. Chem. C 2012, 116, 16014-16022.

[18] L. Xu, X. R. Miao, B. Zha, et al. Two Dimensional Self-assembled molecular Structures Formed by the Competition of Vander Waals Forces and Dipole Dipole Interactions. J. Phys. Chem. C 2012, 116, 1061-1069.
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