联系方式

邮箱：wangx@scu.edu.cn 
地址：四川省成都市武侯区四川大学望江校区西五教

个人简历 

王仙，四川大学原子与分子物理研究所特聘副研究员。2016 年获西华师范大学理学（物理学）和管理学（行政管理学）双学士学位；2019 年获四川大学理学硕士学位（原子与分子物理）；2021 年赴比利时Université de Namur开展联合培养博士研究，2022 年获四川大学理学博士学位（凝聚态物理）。2022年起先后在新加坡国立大学、南洋理工大学做博士后研究。2025 年入职四川大学原子与分子物理研究所。迄今已发表 SCI 论文 31 篇，其中以第一作者或共同第一作者在 ACS Nano, npj Computational Materials, Physical Review B, Physical Review Applied, Journal of Applied Physics, Journal of Chemical Physics, ACS Applied Materials Interfaces, Nano Research, Nanoscale 等主流学术期刊发表 19 篇。

研究方向

• 生物材料设计中的AI新方法

• 基于机器学习的合金设计理论与方法

• 外加物理场耦合下材料响应机理

• 面向前沿新材料设计的高通量自主计算方法

代表性论文

[1] Xian Wang, Jun Zhou, Xuesen Wang, Lei Shen* and Yuan Ping Feng*. Heterobilayer Ferroelectricity with Competitive Polarization. ACS Nano (2025).

[2] Xian Wang*, Wenfeng Guang and Yunpeng Lu*. Tunable layer-specific polarizability in twisted multilayer graphene flakes capped with hexagonal boron nitride. The Journal of Chemical Physics, 162(2025)234706.

[3] Xian Wang#, Shashidhara Acharya#, Peng Wang, Yi-Ming Zhao, Kui Yao and Lei Shen*. Oxygen impurity effects on the piezoelectric response of wurtzite Al_0.625Sc_0.375N. Journal of Applied Physics, 138(2025)035105.

[4] Xian Wang, Peng Wang, Xiaoqing Liu, Xuesen Wang, Yunpeng Lu* and Lei Shen*. Data-Driven Discovery of High-Performance Heterobilayer Transition Metal Dichalcogenide-Based Sliding Ferroelectrics. ACS Applied Materials & Interfaces, 17(2025)7164.

[5] Xian Wang#, Yifan Li#, Ying Zhang, Peng Wang, Yi-Ming Zhao, Jun Zhou, Jie Yang, Xuesen Wang and Lei Shen*. Machine learning-assisted identification of homobilayer sliding ferroelectrics with large out-of-plane polarization and low sliding energy barriers. Physical Review B, 111(2025)094106.

[6] Ziduo Yang#, Xian Wang#, Yifan Li, Qiujie Lv, Calvin Yu-Chian Chen* and Lei Shen*. Lightweight equivariant model for efficient interatomic potential predictions. npj Computational Materials, 11(2025)11:49.

[7] Ziduo Yang#, Yi-Ming Zhao#, Xian Wang, Xiaoqing Liu, Xiuying Zhang, Yifan Li, Qiujie Lv, Calvin Yu-Chian Chen* and Lei Shen*. Scalable crystal structure relaxation using an iteration-free deep generative model with uncertainty quantification. Nature Communications, 15(2024)8148.

[8] Shashidhara Acharya#, Xian Wang#, Qinwen Xu, Mingsheng Zhang, Jianwei Chai, Ping Luo, Poh Chong Lim, Ping Yang, Lei Shen, Chengliang Sun and Kui Yao*. Role of oxygen on structure and piezoelectric properties of Al_0.65Sc_0.35N thin films. Physical Review Applied, 22(2024)044071.

[9] Xian Wang* and Yunpeng Lu*. Controllable interlayer shielding effect in twisted multilayer graphene quantum dots. Nanoscale, 16(2024)17974.

[10] Xian Wang and Yong Han*. Effects of exchange-correlation functionals on predicted bulk properties of hexagonal hydroxyapatite. Computational Material Science, 224(2023)112153.

[11] Xian Wang, Yingqi Cui, Xiangyu Huo, Li Zhang and Mingli Yang*. Controllable bandgaps of multilayer graphene quantum dots tuned by stacking thickness, interlayer twist and external electric field. Journal of Materials Science, 58(2023)11957.

[12] Xian Wang and Jing-Yang You*. Giant spontaneous valley polarization in two-dimensional ferromagnetic heterostructures. Materials Today Electronics, 5(2023)100051.

[13] Xian Wang and Mingli Yang*. Enhanced interlayer coupling in twisted bilayer graphene quantum dots. Applied Surface Science, 600(2022)154148.

[14] Xian Wang, Li Zhang and Mingli Yang*. Interlayer electron flow and field shielding in twisted trilayer graphene quantum dots. Nanoscale, 14(2022)1310.

[15] Xian Wang, Li Zhang, Shengping Yu, Mingli Yang* and Koblar Alan Jackson*. Interlayer polarizability in twisted bilayer graphene quantum dots. Physical Review B, 104(2021)155411.

[16] Xian Wang, Yingqi Cui, Li Zhang and Mingli Yang*. Enhanced second-order Stark effect in twisted bilayer graphene quantum dots. Nano Research, 14(2021)3935.