个人简介
教育与科研经历
2018 - 至今 中国科学技术大学合肥微尺度物质科学国家研究中心,特任教授
2010, 2011, 2012 美国田纳西大学,访问学者(每年1-2个月)
2007 - 2017 中国科学技术大学合肥微尺度物质科学国家研究中心,助理研究员
2001 - 2006 香港科技大学,博士
2000 - 2001 中国科学技术大学,硕士研究
1996 - 2000 中国科学技术大学,学士
研究领域
主要研究方向为低维能源与信息材料的理论设计、计算模拟及物性研究,并与实验有效地互动性合作。主要围绕二维层状材料体系,运用基于第一性原理的多尺度模拟与计算,从非平衡生长机理、形貌控制到物性优化开展系统研究。具体体系包括石墨烯、六角氮化硼、磷烯、过渡金属二硫族化合物、拓扑绝缘体等材料的单层、条带、团簇、晶界、异质结、超晶格等;物性包括电子、激子、磁性、自旋输运、催化、拓扑性、超导性等。
近期论文
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1. W. J. Ding, J. Zeng, W. Qin, P. Cui*, and Z. Y. Zhang*, “Exploring high transition temperature superconductivity in a freestanding or SrTiO3-supported CoSb monolayer”, Phys. Rev. Lett. 124, 027002 (2020).
2. L. Q. Li, J. Zeng, W. Qin, P. Cui*, and Z. Y. Zhang*, “Tuning the hydrogen activation reactivity on topological insulator heterostructures”, Nano Energy 58, 40 (2019).
3. J. Zeng, P. Cui*, and Z. Y. Zhang*, “Half layer by half layer growth of a blue phosphorene monolayer on a GaN(001) substrate”, Phys. Rev. Lett. 118, 046101 (2017). [Editors’ Suggestion]
4. P. Cui, J. H. Choi, C. G. Zeng, Z. Y. Li, J. L. Yang, and Z. Y. Zhang, “A kinetic pathway towards high-density ordered N doping of epitaxial graphene on Cu(111) using C5NCl5 precursors”, J. Am. Chem. Soc. 139, 7196 (2017).
5. Y. X. Chen#, P. Cui#, X. B. Ren, C. D. Zhang, C. H. Jin, Z. Y. Zhang, and C. K. Shih, “Fabrication of MoSe2 nanoribbons via an unusual morphological phase transition”, Nat. Commun. 8, 15135 (2017).
6. P. Cui, J. H. Choi, W. Chen, J. Zeng, C. K. Shih, Z. Y. Li, and Z. Y. Zhang, “Contrasting structural reconstructions, electronic properties, and magnetic orderings along different edges of zigzag transition metal dichalcogenide nanoribbons”, Nano Lett. 17, 1097 (2017).
7. P. Cui, Q. Zhang, H. B. Zhu, X. X. Li, W. Y. Wang, Q. X. Li, C. G. Zeng, and Z. Y. Zhang, “Carbon tetragons as definitive spin switches in narrow zigzag graphene nanoribbons”, Phys. Rev. Lett. 116, 026802 (2016).
8. Y. N. Zhou, W. Chen, P. Cui*, J. Zeng, Z. N. Lin, E. Kaxiras, and Z. Y. Zhang*, “Enhancing the hydrogen activation reactivity of nonprecious metal substrates via confined catalysis underneath graphene”, Nano Lett. 16, 6058 (2016).
9. J. H. Choi#, P. Cui#, H. P. Lan, Z. Y. Zhang, “Linear scaling of the exciton binding energy versus the band gap of two-dimensional materials”, Phys. Rev. Lett. 115, 066403 (2015).