2025年
[48] Wei Xun, Xin Liu, Youdong Zhang*, Yin-Zhong Wu, and Ping Li*. Stacking-, Strain-Engineering Induced Altermagnetism, Multipiezo Effect,
and Topological State in Two-Dimensional Materials. Appl. Phys. Lett. (2025) In press
[47] San-Dong Guo*, Ping Li, and Guangzhao Wang, First-principles calculations study of valley polarization in antiferromagnetic bilayer systems. Phys. Rev. B 111, L140404 (2025). (科研任务行: 反铁磁双层系统中的谷极化)
[46] Kai Chen#*, Weixu Duan#, Liwei Zhou, Ruijie Ma*, Ping Li, and Bingsou Zou*, A systematic investigation on pyridine derived solid additives inducing fibrillar morphology for highly efficient organic solar cells with over 20% efficiency. Mat. Sci. Eng. R 164, 100977 (2025).
[45] Hanbo Sun#, Yewei Ren#, Chao Wu, Pengqiang Dong, Weixi Zhang*, Yin-Zhong Wu, and Ping Li*. Ferroelectric tuning of the valley polarized metal-semiconductor transition in Mn2P2S3Se3/Sc2CO2 van der Waals heterostructures and application to nonlinear Hall effect devices. Phys. Rev. Appl. 23, 034032 (2025). (中国物理学会, 交大新闻, 金属材料强度全国重点实验室新闻, 材料学院新闻, 计算凝聚态物理: 二维材料能谷极化研究方面取得系列重要进展)
[44] Chao Wu, Hanbo Sun, Pengqiang Dong, Yin-Zhong Wu, and Ping Li*. Coexisting Triferroic and Multiple Types of Valley Polarization by Structural Phase Transition in 2D Materials. Adv. Funct. Mater. (2025) In press. (中国物理学会, 交大新闻, 金属材料强度全国重点实验室新闻, 材料学院新闻, 材料学院新闻, 材料人, 西科技, 学术之友, 科研任我行, JAD电介质学术交流:二维材料能谷极化研究方面取得系列重要进展)
[43] Yiding Wang#, Hanbo Sun#, Chao Wu, Weixi Zhang*, San-Dong Guo, Yanchao She*, and Ping Li*. Multifield tunable valley splitting and anomalous valley Hall effect in two-dimensional antiferromagnetic MnBr. Phys. Rev. B 111, 085432 (2025). (中国物理学会, 交大新闻, 金属材料强度全国重点实验室新闻, 材料学院新闻, 吉首大学物理学院新闻:反铁磁材料中能谷极化的研究取得新成果)
[42] Bo Li#, Zhen Jiao#, Ping Li#, Yanli Tao, Qin Liao, Shicheng Xu, Qiwei Tian, Chen Zhang, Li Zhang, Yuan Tian, Long-jing Yin, Lijie Zhang, and Zhihui Qin*. Weak coupling of buckled germanene with high Fermi velocity on semiconducting Cu2Te. Appl. Phys. Lett. 126, 041903 (2025).
[41] Gang Guo*, Fuming Du, Gengcai Guo, and Ping Li*. First-principles study on the structural, mechanical and optoelectronic properties of the hydrogenated and fluorinated dumbbell silicene monolayers and their vertical heterostructures. Chin. J. Phys. 93, 564 (2025).
[40] Yanan Zhao#*, Yufei Yao#, Ping Li#, Zhilu Ye, Minye Yang, Zicong Zhou, Guannan Yang, Lin Han, Zidong Wang, Yan Zhou, Jingrui Li, Haixia Liu, Guohua Dong, Bin Peng, Qian Li, Zhixin Guo*, and Ming Liu*. Observation of Large Low-Field Magnetoresistance in Layered (NdNiO3)n:NdO Films at High Temperatures. Adv. Mater. 37, 2415426 (2025). (交大新闻, 电信学部新闻, JAD电介质学术交流: 强关联镍酸盐薄膜体系中观测到超大低场磁阻效应)(入选Frontispiece)
[39] Han Liu, Hairui Bai, Yibo Zhou, Ping Li, Wenyan Su*, Chang Liu, Xunfan Liao, Bin Hu, Xiong Li, Zhaozhao Bi, Chao Zhao, Guanghao Lu, Huiling Du, Long Jiang*, Yuhang Liu, Ruijie Ma*, Wei Ma*, and Qunping Fan*. Brominated Isomerization Engineering of 1-Chloronaphthalene Derived Solid Additives Enables 19.68% Efficiency Organic Solar Cells. Mat. Sci. Eng. R 162, 100879 (2025).
2024年
[38] Gang Guo*, Yongcheng Chen, Lingyun Mao, and Ping Li*. Stacking order and vertical strain controllable optoelectronic properties of van der Waals heterostructures constructed with germanene and double layer hexagonal structure AlAs. Surf. Interfaces 55, 105413 (2024).
[37] Jingye Zhao, Ping Li, Qi Zhang, Zhilu Ye, Yijing Wang, Jingyu Tian, Zhe Xu, Niancai Peng, Hui Ren, and Xiaohui Zhang*. MOF Nanoflowers-Based Flexible Portable NO Sensors for Human Airway Inflammation Detection. Chem. Eng. J. 499, 156184 (2024).
[36] San-Dong Guo*, Liguo Zhang, Yiwen Zhang, Ping Li, and Guangzhao Wang. Large spontaneous valley polarization and anomalous valley Hall effect in antiferromagnetic monolayer Fe2CF2. Phys. Rev. B 110, 024416 (2024).
[35] Weixi Zhang, Changhai Tian, Yong Li, Qianglin Hu, Yanchao She*, and Ping Li*. Correlation driven a novel spin-polarized hourglass loop in monolayer VCl2. J. Magn. Magn. Mater. 603, 172262 (2024).
[34] Jingshun Gao#, Hairui Bai*#, Ping Li#, Yibo Zhou, Wenyan Su, Chang Liu, Xiaoxiao Li, Yue Wu, Bin Hu, Zezhou Liang, Zhaozhao Bi, Xiong Li, Lihe Yan, Huiling Du, Guanghao Lu, Chao Gao, Kun Wang*, Yuhang Liu, Wei Ma*, and Qunping Fan*. Halogented Dibenzo[f,h] quinoxaline Units Constructured 2D-Conjugated Guest Acceptors for 19% Efficiency Organic Solar Cells. Adv. Sci. 11, 2403334 (2024).
[33] Ping Li#, Xueyang Li#, Junsheng Feng, Jinyang Ni, Zhi-Xin Guo*, and Hongjun Xiang*. Origin of zigzag antiferromagnetic orders in XPS3 (X = Fe, Ni) monolayers. Phys. Rev. B 109, 214418 (2024). (科研徒步:单层XPS3 (X = Fe, Ni)中zigzag型AFM的起源)
[32] Meisi Li, Wang Feng, Yu Lan, Yimin Sun, Ping Li*, Jianfeng Li, Wanli Yang, Hong Xiang Li, Junqiao Ding, and Jianhua Chen*. Effects of Selenium Incorporation on the Performance of Polythiophene Based Organic Electrochemical Transistors. J. Mater. Chem. C 12, 7935 (2024).
[31] Wei Xun, Chao Wu, Hanbo Sun, Weixi Zhang, Yin-Zhong Wu, and Ping Li*. Coexisting Magnetism, Ferroelectric, and Ferrovalley Multiferroic in Stacking-Dependent Two-Dimensional Materials. Nano Lett. 24, 3541 (2024). (中国物理学会, 交大新闻, 材料学院新闻, 科学网,ACS材料X, 材料人, JAD电介质学术交流, 学术之友, 科研任我行, 计算材料学:二维材料层依赖的磁性、铁电、铁谷共存的多铁) ESI高被引
[30] Yue Wu, Mengyuan Wei, Yuxuan Sun, Xiao Yang*, Wei Xun, Mingguang Li, Runfeng Chen, Yi Lin, Ping Li, and Qing-Song Jiang*. A buried interface modification strategy for enhancing the photovoltaic performance of NiOx-based inverted perovskite solar cells. Vacuum 222, 113057 (2024).
[29] Ping Li*, Bang Liu, Shuai Chen, Wei-Xi Zhang, and Zhi-Xin Guo*. Progress on two-dimensional ferrovalley materials. Chin. Phys. B 33, 017505 (2024). [Invited review].
2023年
[28] Manjun Xiao*, Yongdie Meng, Luting Tang, Ping Li, LingXiao Tang, Wenqing Zhang, Bin Hu, Fan Yi, Tao Jia, Jiamin Cao, Chao Xu, Guanghao Lu, Xiaotao Hao, Wei Ma*, and Qunping Fan*. Solid Additive-Assisted Selective Optimization Strategy for Sequential Deposited Active Layers to Construct 19.16% Efficiency Binary Organic Solar Cells. Adv. Funct. Mater. 2311216 (2023). (科学材料站:通过固体添加剂辅助活性层选择性优化策略构筑19.16%效率的二元有机太阳电池)
[27] Ping Li*, Chao Wu, Cheng Peng, Mutian Yang, and Wei Xun*. Multifield tunable valley splitting in two-dimensional MXene Cr2COOH. Phys. Rev. B 108, 195424 (2023).
[26] Qiwei Tian, Ping Li*, Li Zhang, Yuan Tian, Long-Jing Yin, Lijie Zhang*, and Zhihui Qin*. Native Pb vacancy defects induced p-type characteristic in epitaxial monolayer PbSe. Appl. Phys. Lett. 123, 051903 (2023) .
[25] Ping Li*, Xiao Yang, Qing-Song Jiang, Yin-Zhong Wu*, and Wei Xun*. Built-in electric field and strain tunable valley-related multiple topological phase transitions in VSiXN4 (X=C, Si, Ge, Sn, Pb) monolayers. Phys. Rev. Mater. 7, 064002 (2023). ESI高被引
[24] B. Liu, X. X. Ren, Zhang Xian*, Ping Li, Y. Dong* and Zhi-Xin Guo. Electric field tunable multi-state tunnel magnetoresistances in 2D van der Waals magnetic heterojunctions. Appl. Phys. Lett. 122, 152408 (2023).
[23] Wei Xun*, Xiao Yang, Qing-Song Jiang, Ming-Jun Wang*, Yin-Zhong Wu, and Ping Li*. Single-atom anchored two-dimensional MoSi2N4 monolayers for efficient electroreduction of CO2 to formic acid and methane. ACS Appl. Energy Mater. 6, 3236 (2023).
[22] Ping Li, Jing-Zhao Zhang, Zhi-Xin Guo*, Tai Min, and X. R. Wang*. Intrinsic anomalous spin Hall effect. Sci. China Phys. Mech. Astron. 66, 227511 (2023). (中国科学:物理学 力学 天文学 (SCPMA):本征反常自旋霍尔效应)
2022年
[21] Bo Li, Jing Wang, Qilong Wu, Qiwei Tian, Ping Li*, Li Zhang, Long-Jing Yin, Yuan Tian, Ping Kwan Johnny Wong, Zhihui Qin*, and Lijie Zhang*. Nanopore patterned CuSe-driven the realization of PbSe-CuSe lateral heterostructure. ACS Appl. Mater. Interfaces. 14, 32738 (2022).
[20] Kang Wang, Yihui Li, Haoliang Mei, Ping Li*, and Zhi-Xin Guo*. Quantum anomalous Hall and valley quantum anomalous Hall effects in two-dimensional d0 orbital XY monolayers. Phys. Rev. Mater. 6, 044202 (2022).
[19] Qi Lu#, Ping Li#, Zhi-Xin Guo*, Guohua Dong*, Bin Peng, Xi Zha, Tai Min, Ziyao Zhou, and Ming Liu*. Giant Tunable Spin Hall Angle in Sputtered Bi2Se3 Controlled by an Electric Field. Nat. Commun. 13, 1650 (2022). (交大新闻网;中国科学报:西安交大科研人员实现电场大范围调控自旋霍尔角)
[18] Ping Li, Xue-Song Zhou, and Zhi-Xin Guo*. Intriguing Magnetoelectric Effect in Two-dimensional Ferromagnetic/Perovskite Oxide Ferroelectric Heterostructure. npj Comput. Mater. 8, 20 (2022). (npj计算材料学:以小电场诱导出2D多铁异质结强磁电效应)
2021年
[17] Junsheng Huang#, Ping Li#, Xiaoxiong Ren, and Zhi-Xin Guo*. Promising properties of a sub-5-nm monolayer MoSi2N4 transistor. Phys. Rev. Appl., 16, 044022 (2021).
[16] Xiaoxiong Ren, Junsheng Huang, Ping Li, Yun Zhang, and Zhi-Xin Guo*. Exotic Spintronic Properties of Transition-metal Monolayers on Graphyne. Adv. Theor. Simul., 21, 2100287 (2021).
[15] Ping Li*, and Zhi-Xin Guo*. The Dirac half-semimetal and quantum anomalous Hall effect in two-dimensional Janus Mn2X3Y3 (X, Y = F, Cl, Br, I). Phys. Chem. Chem. Phys., 23, 19673 (2021).
[14] Jiaqi Deng, Gulnigar Ablat, Yumu Yang, Xiaoshuai Fu, Qilong Wu, Ping Li*, Li Zhang, Ali Safaei, Lijie Zhang*, and Zhihui Qin. Two-dimensional germanium islands with Dirac signature on Ag2Ge surface alloy. J. Phys: Condens. Matter 33, 225001 (2021).
[13] Ping Li, Yue Ma, Yun Zhang*, and Zhi-Xin Guo*. Room Temperature Quantum Anomalous Hall Insulator in a Honeycomb-Kagome Lattice, Ta2O3, with Huge Magnetic Anisotropy Energy. ACS Appl. Electron. Mater., 3, 1826 (2021).
[12] Zhen Zhang, Cheng Jiang, Ping Li*, Keguang Yao, Zhiliang Zhao, Jiantao Fan*, Hui Li*, and Haijiang Wang. Benchmarking Phases of Ruthenium Dichalcogenides for Electrocatalysis of Hydrogen Evolution: Theoretical and Experimental Insights. Small, 17, 2007333 (2021). (入选封面文章Front Cover).
[11] Zhen Zhang, Cheng Jiang, Ping Li, Qi Feng, Zhi liang Zhao, Keguang Yao, Jiantao Fan, Hui Li*, and Haijiang Wang. Pt atoms on doped carbon nanosheets with ultrahigh N content as a superior bifunctional catalyst for hydrogen evolution/oxidation. Sustain. Energy Fules, 5, 532 (2021).
2020年以前
[10] Ping Li, and Tian-Yi Cai*. Two-Dimensional Transition-Metal Oxides Mn2O3 Realized the Quantum Anomalous Hall Effect. J. Phys. Chem. C, 124, 12705 (2020).
[9] Ping Li, and Tian-Yi Cai*. Fully spin-polarized quadratic non-Dirac bands realized quantum anomalous Hall effect. Phys. Chem. Chem. Phys., 22, 549 (2020). (入选2019 PCCP HOP Articles).
[8] Kai Wang#, Yun Zhang#, Wei Zhao, Ping Li, Jianwen Ding, Guofeng Xie, and Zhixin Guo*. Topological Dirac states in transition-metal monolayers on graphyne. Phys. Chem. Chem. Phys., 21, 9310 (2019).
[7] Ping Li*. Stanene on a SiC(0001) surface a candidate for realizing quantum anomalous Hall effect. Phys. Chem. Chem. Phys., 21, 11150 (2019).
[6] Ping Li*. Prediction of intrinsic two dimensional ferromagnetism realized quantum anomalous Hall effect. Phys. Chem. Chem. Phys., 21, 6712 (2019).
[5] Zhen Zhang, Ping Li, Qi Wang, Qi Feng, Youkun Tao, Jiaoyan Xu, Cheng Jiang, Xiner Lu, Jiantao Fan, Meng Gu, Hui Li*, and Haijiang Wang*. Mo modulation effect on the hydrogen binding energy of hexagonal-close-packed Ru for hydrogen evolution. J. Mater. Chem. A, 7, 2780 (2019).
[4] Zhen Zhang#, Ping Li#, Qi Feng, Bing Wei, Chenglong Deng, Jiantao Fan, Hui Li*, and Haijiang Wang*. Scalable Synthesis of a Ruthenium-Based Electrocatalyst as a Promising Alternative to Pt for Hydrogen Evolution Reaction. ACS Appl. Mater. Interfaces, 10, 32171 (2018).
[3] Feng Nan, Ping Li, Jiankang Li, Tianyi Cai*, Sheng Ju, and Liang Fang*. Experimental and Theoretical Evidence of Enhanced Visible Light Photoelectrochemical and Photocatalytic Properties in MoS2/TiO2 Nanohole Arrays. J. Phys. Chem. C, 122, 15055 (2018).
[2] Ping Li#, Xiao Li#, Wei Zhao#, Hua Chen, Ming-Xing Chen, Zhi-Xin Guo*, Ji Feng, Xin-Gao Gong, and Alla H. MacDonald. Topological Dirac States beyond π‑Orbitals for Silicene on SiC(0001) Surface. Nano Lett., 17, 6195 (2017). (材料人:硅烯在SiC(0001)表面发现π轨道以外的拓扑狄拉克态)
[1] Ping Li, Juexian Cao, and Zhi-Xin Guo*. A new approach for fabricating germanene with Dirac electrons preserved: a first principles study. J. Mater. Chem. C, 4, 1736 (2016).
