王爱峰
重庆大学“百人计划”研究员
Email: afwang@cqu.edu.cn
地址:重庆大学虎溪校区,理科楼LE501室
学习及工作经历:
2018 – 至今 重庆大学应用物理系,百人计划研究员
2014 – 2018 美国布鲁克海文国家实验室,博士后
2009 – 2014 中国科学技术大学物理系,博士
2005 – 2009 山东师范大学物电学院,学士
研究兴趣:
主要从事拓扑、超导等量子材料体系的新材料探索,单晶生长和相关输运性质研究,其中在单晶生长方面比较有特色。
1、狄拉克半金属、外尔半金属等拓扑量子材料的单晶生长和输运性质研究
2、铁基超导体单晶生长和输运性质研究
3、新型无机功能材料探索
4、低温强磁场下输运性质测量
主持的项目:
(1)主持新重庆青年创新人才项目1项:具有多种有序态的新型量子材料的结构设计、单晶生长及物性研究,60万,2025-2028.
(2)主持国家自然科学基金面上项目1项:反铁磁笼目金属FeGe中电荷密度波物理机制的研究,52万,2025-2028。
(3)主持中央高校基本科研项目1项:量子微观物性与新型功能材料探索,8万元,2022-2023
(4)主持国家自然科学基金青年基金1项:磁性拓扑半金属的磁场调控及面间输运研究,24万,2021-2023。
(5)主持重庆市自然科学基金面上项目1项:铕基拓扑半金属的单晶生长及外磁场调控研究,10万元,2021-2024。
主要研究成果:
在Physical Review Letters, Nature Communications, Physical Review B等SCI期刊共计发表论文120多篇,其中第一/通讯作者(含共同)31篇:包括Physical Review Letters 1篇,Nature Communications 2篇,npj Quantum Materials 1篇,Physical Review B 18篇,Chemistry Materials 1篇, Nano Letters 1篇,Inorganic Chemistry 1篇,Applied Physics Letters 1篇,Physical Review Research 1篇。文章共计引用3200多次,H因子30。
* 通讯作者, # 共同一作
1. Annealing-Tunable Charge Density Wave in the Magnetic Kagome Material FeGe
Xueliang Wu#, Xinrun Mi#, Long Zhang#, Chin-Wei Wang, Nour Maraytta, Xiaoyuan Zhou, Mingquan He*, Michael Merz*, Yisheng Chai*, and Aifeng Wang*
Phys. Rev. Lett. 132, 256501(2024).
(此工作被选为2024年度重庆市基础研究12项代表性成果之一)
2. Discovery of a long-ranged charge order with 1/4 Ge1-dimerization in an antiferromagnetic Kagome metal
Ziyuan Chen, Xueliang Wu, Shiming zhou, Jiakang Zhang, Ruotong Yin, Yuanji Li, Mingzhe, Jiashuo Gong, Mingquan He, Yisheng Chai, Xiaoyuan zhou, Yilin Wang, Aifeng Wang*, Ya-Jun Yan*, and Dong-Lai Feng*
Nat. Commun. 15, 6262 (2024).
3. Doping-induced spin reorientation and magnetic phase diagram of EuMn1-x ZnxSb2 ( 0 ≤ x ≤ 1 )
Yuanying Xia#, Lin Wang#, Yan Liu, Liyu Zhang, Xueliang Wu, Long Zhang, Tianran Yang, Kunya Yang, Mingquan He, Yisheng Chai, Xiaoyuan Zhou*, and Aifeng Wang*
Phys. Rev. B 107, 184415 (2023).
4. Coexistence of Dirac fermion and charge density wave in the square-net-based semimetal LaAuSb2
Xueliang Wu#, Zhixiang Hu#, David Graf, Yu Liu, Chaoyue Deng, Huixia Fu, Asish K. Kundu, Tonica Valla, Cedomir Petrovic*, and Aifeng Wang *
Phys. Rev. B 108, 245156 (2023).
5. Coupling between the spatially separated magnetism and the topological band revealed by magnetotransport measurements on EuMn1−xZnxSb2 (0 ≤ x ≤ 1)
Yuanying Xia#, Lin Wang#, Yuanhao Zhu, Liyu Zhang, Yan Liu, Xueliang Wu, Long Zhang,Tianran Yang,Kunya Yang, Mingquan He, Yisheng Chai, Huixia Fu*, Xiaoyuan Zhou*, and Aifeng Wang *
Phys. Rev. B 108,165115 (2023).
6. Single-crystal growth and physical properties of LaMn0.86Sb2
Tianran Yang#, Liyu Zhang#, Chin-Wei Wang, Fei Gao, Yuanying Xia, Pengfei Jiang, Long Zhang, Xinrun Mi, Mingquan He, Yisheng Chai, Xiaoyuan Zhou, Huixia Fu*, Weijun Ren*, and Aifeng Wang*
Phys. Rev. B 107, 115150 (2023).
7. Single-Crystal Growth, Structure, and Transport Properties of a New Dirac Semimetal LaMg0.83Sb2
Tianran Yang#, Kaili Mei#, Xincan Wang, Liyu Zhang, Yuanying Xia, Xueliang Wu, Mingquan He, Yisheng Chai, Xiaoyuan Zhou, Zhengyang Zhou, Huixia Fu*, Pengfei Jiang*, and Aifeng Wang*
Chem. Mater. 35, 304 (2023).
8. Signature of spin-phonon coupling driven charge density wave in a kagome magnet
H. Miao*, T. T. Zhang, H. X. Li, G. Fabbris, A. H. Said, R. Tartaglia, T. Yilmaz, E. Vescovo, J.-X. Yin, S. Murakami, X. L. Feng, K. Jiang, X. L. Wu, A. F. Wang *, S. Okamoto*, Y. L. Wang*, and H. N. Lee
Nat. Commun.14, 6183 (2023).
9. Nanoscale inhomogeneity and the evolution of correlation strength in FeSe1−xSx
Yu Liu*, Aifeng Wang*, Qianheng Du, Lijun Wu, Yimei Zhu and Cedomir Petrovic*
Nano Convergence 10, 59 (2023).
10. Electron correlations in the Hc2 of FeySe1-xSx (0.1 ≤ x ≤ 0.24; y ≥ 0.9)
Aifeng Wang, and C. Petrovic
Supercond. Sci. Technol. 35, 115002 (2022).
11. Suppression of Superconductivity and Nematic Order in Fe1-ySe1-xSx (0 ≤ x ≤ 1; y ≤ 0.1) Crystals by Anion Height Disorder
Aifeng Wang, Ana Milosavljevic, A. M. Milinda Abeykoon, Valentin Ivanovski, Qianheng Du, Andreas Baum, Eli Stavitski, Yu Liu, Nenad Lazarevic, Klaus Attenkofer, Rudi Hackl, Zoran Popovic, and Cedomir Petrovic
Inorg. Chem. 61, 11036 (2022).
12. Mooij Law Violation from Nanoscale Disorder
Aifeng Wang, Lijun Wu, Qianheng Du, Muntaser Naamneh, Walber Hugo Brito, AM Milinda Abeykoon, Wojciech Radoslaw Pudelko, Jasmin Jandke, Yu Liu, Nicholas C. Plumb, Gabriel Kotliar, Vladimir Dobrosavljevic, Milan Radovic, Yimei Zhu, and Cedomir Petrovic
Nano Lett. 22, 6900 (2022).
13. Thermoelectricity and electronic correlation enhancement in FeS by light Se doping
Yu Liu*, Aifeng Wang*, V. N. Ivanovski, Qianheng Du, V. Koteski, and C. Petrovic*
Phys. Rev. B 105, 045133 (2022).
14. The nonlinear optical properties of Zirconium pentatelluride and its application in ultrafast solid-state lasers
Enlin Cai, Jianyi Xu, Yuanying Xia, Linhong Hao, Qingyue Zhang, Shuaiyi Zhang*, Lihua Teng, Fei Lou, Maorong Wang, Xia Wang, AifengWang*, and TaoLi*
Opt. Laser Technol. 150, 108003 (2022).
15. Strong coupling between magnetic order and band topology in the antiferromagnet EuMnSb2
Liyu Zhang, Zeliang Sun, Aifeng Wang*, Yuanying Xia, Xinrun Mi, Long Zhang, Mingquan He, Yisheng Chai, Tao Wu, Rui Wang, Xiaoyuan Zhou*, and Xianhui Chen
Phys. Rev. B 104, 205108 (2021).
16. Field-induced metal-to-insulator transition and colossal anisotropic magnetoresistance in a nearly Dirac material EuMnSb2
Z. L. Sun#, A. F. Wang#, H. M. Mu, H. H. Wang, Z. F. Wang, T. Wu, Z. Y. Wang, X. Y. Zhou*, and X. H. Chen*
npj Quantum Mater. 6, 94 (2021).
17. Magnetic mixed valent semimetal EuZnSb2 with Dirac states in the band structure
Aifeng Wang, Sviatoslav Baranets, Yu Liu, Xiao Tong, E. Stavitski, Jing Zhang, Yisheng Chai, Wei-Guo Yin, Svilen Bobev, and C. Petrovic
Phys. Rev. Research 2, 033462 (2020).
18. Magnetotransport properties of MoP2
Aifeng Wang, D. Graf, Yu Liu, and C. Petrovic
Phys. Rev. B 96, 195107 (2017).
19. Large magnetoresistance in the type-II Weyl semimetal WP2
Aifeng Wang, D. Graf, Yu Liu, Qianheng Du, Jiabao Zheng, Hechang Lei, and C. Petrovic
Phys. Rev. B 96, 121107(R) (2017).
20. Vortex pinning and irreversibility fields in FeS1-xSex (x = 0, 0.06)
Aifeng Wang, and C. Petrovic
Appl. Phys. Lett. 110, 232601 (2017).
21. Normal state above the upper critical field in Fe1+yTe1−x(Se,S)
Aifeng Wang, Erik Kampert, H. Saadaoui, H. Luetkens, Rongwei Hu, E. Morenzoni, J. Wosnitza, and C. Petrovic
Phys. Rev. B 94, 184504 (2017).
22. Magnetotransport study of Dirac fermions in YbMnBi2 antiferromagnet
Aifeng Wang, I. Zaliznyak, Weijun Ren, Lijun Wu, D. Graf, V. O. Garlea, J. B. Warren, E. Bozin, Yimei Zhu, and C. Petrovic
Phys. Rev. B 94, 165161 (2016).
23. Critical current density and vortex pinning in tetragonal FeS1-xSex (x = 0, 0.06)
A. F. Wang, Lijun Wu, V. N. Ivanovski, J. B. Warren, Jianjun Tian, Yimei Zhu, and C. Petrovic
Phys. Rev. B 94, 094506 (2016).
24. Interlayer electronic transport in CaMnBi2 antiferromagnet
A. F. Wang, D. Graf, Lijun Wu, Kefeng Wang, E. Bozin, Yimei Zhu, and C. Petrovic
Phys. Rev. B 94, 125118 (2016).
25. Anomalous impurity effects in the iron-based superconductor KFe2As2
A. F. Wang, S. Y. Zhou, X. G. Luo, X. C. Hong, Y. J. Yan, J. J. Ying, P. Cheng, G. J. Ye, Z. J. Xiang, S. Y. Li, and X. H. Chen
Phys. Rev. B 89, 064510 (2014).
26. A crossover in the phase diagram of NaFe1-xCoxAs determined by electronic transport measurements
A. F. Wang, J. J. Ying, X. G. Luo, Y. J. Yan, D. Y. Liu, Z. J. Xiang, P. Cheng, G. J. Ye, L. J. Zou, Z. Sun, and X. H. Chen
New J. Phys. 15, 043048 (2013).
27. Phase diagram and physical properties of NaFe1-xCuxAs single crystals
A. F. Wang, J. J. Lin, P. Cheng, G. J. Ye, F. Chen, J. Q. Ma, X. F. Lu, B. Lei, X. G. Luo, and X. H. Chen
Phys. Rev. B 88, 094516 (2013).
28. Calorimetric study of single-crystal CsFe2As2
A. F. Wang, B. Y. Pan, X. G. Luo, F. Chen, Y. J. Yan, J. J. Ying, G. J. Ye, P. Cheng, X. C. Hong, S. Y. Li, and X. H. Chen
Phys. Rev. B 87, 214509 (2013).
29. Phase diagram and calorimetric properties of NaFe1−xCoxAs
A. F. Wang, X. G. Luo, Y. J. Yan, J. J. Ying, Z. J. Xiang, G. J. Ye, P. Cheng, Z. Y. Li, W. J. Hu, and X. H. Chen
Phys. Rev. B 85, 224521 (2012).
30. Pressure effects on the superconducting properties of single-crystalline Co doped NaFeAs
A. F. Wang, Z. J. Xiang, J. J. Ying, Y. J. Yan, P. Cheng, G. J. Ye, X. G. Luo, and X. H. Chen
New J. Phys. 14, 113043 (2012).
31. Superconductivity at 32 K in single-crystalline RbxFe2−ySe2
A. F. Wang, J. J. Ying, Y. J. Yan, R. H. Liu, X. G. Luo, Z. Y. Li, X. F. Wang, M. Zhang, G. J. Ye, P. Cheng, Z. J. Xiang, and X. H. Chen
Phys. Rev. B 83, 060512(R) (2011).
欢迎对量子材料新材料探索、单晶生长及相关物性研究感兴趣的硕士、博士生加入本课题组。同时非常欢迎想进实验室做研究、做毕业论文的本科生提前进入实验室接受科研训练。有意者请发邮件到 afwang@cqu.edu.cn
