Li Bin

Li Bin

Nanjing University of Posts and Telecommunications

My research centers on first-principles computational investigations of exotic quantum materials, where I explore the frontiers of hydrogen-based superconductors, non-centrosymmetric superconductors, and topological insulators and semimetals. By calculating electronic band structures, Fermi surfaces, phonon spectra, and electron-phonon coupling constants, I uncover the fundamental mechanisms driving superconductivity and the unique properties that emerge in topological materials. Working collaboratively with my research team, we have advanced crystal structure prediction methods and contributed new insights into the relationship between atomic arrangement and quantum phenomena in these materials.

Web of Science ResearcherID: E-4702-2016

ORCID: 0000-0002-6392-4185

Researchgate: Bin-Li-35

🔥 News

  • 2025.07.22:  🎉🎉 “Pressure-driven superconductivity in the topological insulator GeBi4Te7” has been published at PRB. Phys. Rev. B 112, 014515 (2025).
  • 2025.05.03:  🎉🎉 “Superconducting gap structure of the miassite Rh17S15: Nodal or nodeless” has been published at PRB. Phys. Rev. B 111, 174505 (2025).
  • 2025.04.03:  🎉🎉 “Pressure-induced superconductivity, amorphization, and topological phase transitions in the topological semimetal MoP4” has been published at PRB. Phys. Rev. B 111, L140502 (2025).
  • 2025.03.28:  🎉🎉 “Prediction of High-Temperature Superconductivity in Cubic Ternary Hydride M3XH8 at Ambient Pressure” has been published at JPCC. acs.jpcc.5c00513.
  • 2025.03.13:  🎉🎉 “Pressure-induced superconductivity, amorphization,and topological phase transitions in the topologica semimetal MoP4” has been accepted by PRB.
  • 2025.02.27:  🎉🎉 Our team has been awarded as “Wiley China Excellent Author Program” for the paper “Superconductive Sodalite‐Like Clathrate Hydrides MXH12 with Critical Temperatures of near 300 K under Pressures”.
  • 2025.01.17:  🎉🎉 “Magnetic phases and electron-phonon coupling in La3Ni2O7 under pressure” has been published at Computational Materials Science. Computational Materials Science 250, 113676 (2025).arXiv.
  • 2025.01.14:  🎉🎉 “Prediction of high-temperature ambient-pressure superconductivity in hexagonal boron-rich clathrates” has been published at PRB. Phys. Rev. B 111, 014510 (2025). arXiv
  • 2025.01.09:  🎉🎉 “Magnetic phases and electron-phonon coupling in La3Ni2O7 under pressure” has been accepted for publication in Computational Materials Science.
  • 2025.01.07:  🎉🎉 “Transport and quantum oscillations in the quasi-one-dimensional superconductor V2Ga5” has been published at PRB. Phys. Rev. B 111.024503 (2025).
  • 2025.01.04:  🎉🎉 “Prediction of high-temperature ambient-pressure superconductivity in hexagonal boron-rich clathrates” has been accepted by PRB.Link
  • 2024.12.27:  🎉🎉 “Thickness effect on the evolution of superconducting properties in FeSe0.4Te0.6 thin films” has been published at Superconductor Science and Technology. 2025 Supercond. Sci. Technol. 38 015026
  • 2024.12.19:  🎉🎉 “Thickness effect on the evolution of superconducting properties in FeSe0.4Te0.6 thin films” has been accepted by Superconductor Science and Technology.
  • 2024.12.04:  🎉🎉 “Theoretical prediction of high-temperature superconductivity in SrAuH3 at ambient pressure” has been published at PRB. Phys. Rev. B 110, 214504 (2024). arXiv.
  • 2024.11.26:  🎉🎉 “Theoretical prediction of high-temperature superconductivity in SrAuH3 at ambient pressure” has been accepted by PRB. Link.
  • 2024.10.10:  🎉🎉 “Iron doping effect on superconducting properties of FexSe0.4Te0.6 thin films” has been published in Applied Surface Science. Applied Surface Science, 2024, 161481.
  • 2024.08.01:  🎉🎉 “Superconductive Sodalite‐Like Clathrate Hydrides with Critical Temperatures of near 300 K under Pressures” has been published in physica status solidi (b) basic solid state physics. Phys. Status Solidi B 2400240 (2024). arXiv.
  • 2024.05.22:  🎉🎉 “Superconductivity near 70 K in boron-carbon clathrates MB2C8 (M=Na, K, Rb, Cs) at ambient pressure” has been published online today, 22 May 2024, in the 1 May 2024 issue of Physical Review B (Vol. 109, No. 18). PhysRevB.109.184517. arXiv.
  • 2024.05.16:  🎉🎉 Our work titled “Superconductivity near 70 K in boron-carbon clathrates MB2C8 (M=Na, K, Rb, Cs) at ambient pressure” has been accepted by PRB. Link.
  • 2024.05.10:  🎉🎉 Our work titled “Quantum oscillations and electronic features in V1−δSb2 single crystals” published as cover article on APL. Link.
  • 2024.04:  🎉🎉 Li Bin starts this homepage.

📝 Publications

H-index

2025

  1. Yalei Huang, Na Zuo, Zheyi Zhang, Chunqiang Xu, Xiangzhuo Xing, Wen-He Jiao, Bin Li, Wei Zhou, Xiaobing Liu, Dong Qian, Xiaofeng Xu, Pressure-driven superconductivity in the topological insulator GeBi4Te7, Phys. Rev. B 112, 014515 (2025).
  2. J. Y. Nie, C. C. Zhao, C. Q. Xu, Yalei Huang, B. Li, C. P. Tu, X. Zhang, D. Z. Dai, H. R. Wang, S. Xu, Wenhe Jiao, B. M. Wang, Zhu’an Xu, Xiaofeng Xu, and S. Y. Li, Superconducting gap structure of the miassite Rh17S15: Nodal or nodeless, Phys. Rev. B 111, 174505 (2025).
  3. Chutong Zhang, Xiangzhuo Xing, Song Huang, Xiao Tang, Linchao Yu, Na Zuo, Bin Li, Xiaolei Yi, Yan Meng, Xiaoran Zhang, Bingchao Yang, Xin Chen, Xiaofeng Xu, and Xiaobing Liu, Pressure-induced superconductivity, amorphization, and topological phase transitions in the topological semimetal MoP4, Phys. Rev. B 111, L140502 (2025).
  4. Bin Li*, Yuxiang Fan, Junjie Zhai, Zhisi Cao, Cong Zhu, Jie Cheng, Shengli Liu and Zhixiang Shi, Prediction of High-Temperature Superconductivity in Cubic Ternary Hydride M3XH8 at Ambient Pressure, The Journal of Physical Chemistry C 129 (14), 7098-7106 (2025).
  5. Cong Zhu, Bin Li*, Yuxiang Fan, Chuanhui Yin, Junjie Zhai, Jie Cheng, Shengli Liu, Zhixiang Shi, Magnetic phases and electron-phonon coupling in La3Ni2O7 under pressure, Computational Materials Science 250, 113676 (2025).
  6. Bin Li*, Yuxiang Fan, Chuanhui Yin, Junjie Zhai, Cong Zhu, Zhisi Cao, Jie Cheng, and Shengli Liu, Prediction of high-temperature ambient-pressure superconductivity in hexagonal boron-rich clathrates, Phys. Rev. B 111, 014510 (2025).
  7. Y. L. Huang, Z. Y. Zhang, Z. Y. Liu, P. T. Yang, B. Li, C. Q. Xu, B. S. Wang, W. Zhou, Wen-He Jiao, S. Xu, Ziming Zhu, T. Shiroka, Xiangzhuo Xing, Zhu’an Xu, Dong Qian, Shiyan Li, Xianglin Ke, J.-G. Cheng, and Xiaofeng Xu, Transport and quantum oscillations in the quasi-one-dimensional superconductor V2Ga5, Phys. Rev. B 111, 024503 (2025).
  8. Yunrui Zhu, Yalin Zhang, Bin Li, Jinxiang Liu, Jie Cheng, Shengli Liu and Zhongwen Xing, Thickness effect on the evolution of superconducting properties in FeSe0.4Te0.6 thin films, Supercond. Sci. Technol. 38, 015026 (2025).
  9. Yalin Zhang, Yunrui Zhu, Bin Li, Jinxiang Liu, Yongsen Tang, Jie Cheng, Shengli Liu, Zhongwen Xing, Iron doping effect on superconducting properties of FexSe0.4Te0.6 thin films, Applied Surface Science 681, 161481, (2025).

2024

  1. Bin Li, Cong Zhu, Junjie Zhai, Chuanhui Yin, Yuxiang Fan, Jie Cheng, Shengli Liu, and Zhixiang Shi, Theoretical prediction of high-temperature superconductivity in SrAuH3 at ambient pressure, Phys. Rev. B 110, 214504 (2024).
  2. Fan, Y., Li, B., Zhu, C., Cheng, J., Liu, S., and Shi, Z. Superconductive Sodalite-Like Clathrate Hydrides MXH12 with Critical Temperatures of near 300 K under Pressures. Phys. Status Solidi B 2400240 (2024).
  3. Wenhui Liu, Jiajia Feng, Qiang Hou, Bin Li, Ke Wang, Bin Chen, Sheng Li, and Zhixiang Shi, Pressure-induced superconductivity and isosymmetric structural transition in quasi-one-dimensional Ta2PdS6, Phys. Rev. B 109, 054513 (2024).
  4. Bin Li, Yulan Cheng, Cong Zhu, Jie Cheng, and Shengli Liu, Superconductivity near 70 K in boron-carbon clathrates MB2C8 (M=Na, K, Rb, Cs) at ambient pressure, Phys. Rev. B 109, 184517 (2024).
  5. F. Tang, B.-C. Qu, Y. Chen, L.-R. Wang, X.-Q. Yin, Z.-D. Han, Y. Liu, X.-M. Zhang, B. Li, Y. Fang*, Quantum oscillations and electronic features in V1-δSb2 single crystals. Appl. Phys. Lett. 124(19), 193102 (2024).
  6. Wen Huang, Xuwen Xia, Huixing Zhang, Tenglong Guo, Pengjie Hang, Bin Li, Jiawei Tang, Biao Li, Chen Zhu, Lei Wang, Deren Yang, Xuegong Yu & Xing’ao Li, High-performance carbon-electrode-based self-powered optoelectronic synaptic devices. Sci. China Inf. Sci. 67, 159403 (2024).
  7. C. Q. Xu, C. C. Zhao, Y. Shen, D. Ratkovski, X. Ma, W. Zhou, Xunqing Yin, B. Li, A. F. Bangura, Chao Cao, Baomin Wang, Ziming Zhu, X. Ke, Dong Qian, Shiyan Li, and Xiaofeng Xu, Multigap nodeless superconductivity in the Dirac intermetallic alloy V2Ga5 with one-dimensional vanadium chains, Phys. Rev. B 109, L100506 (2024).

2023

  1. Z. Li, B. Li, W. Liu, D. Yan, Q. Tang, Z. Fang, R.-J. Xie, Doping Mn2+ in a New Layered Halide Double Perovskite PPA4NaInCl8 (PPA+ = C6H5(CH2)3NH3+): Dimensional Reduction Accelerating Mn2+ Dissolution and Separation for Efficient Light Emission. Adv. Optical Mater. 11, 2203031 (2023).
  2. W. Zhou, B. Li, Y. Shen, J. J. Feng, C. Q. Xu, H. T. Guo, Z. He, B. Qian, Ziming Zhu, and Xiaofeng Xu, Multiple superconducting phases driven by pressure in the topological insulator GeSb4Te7, Phys. Rev. B 108, 184504 (2023).
  3. Sudeep Kumar Ghosh, Bin Li, Chunqiang Xu, Adrian D Hillier, Pabitra K Biswas, Xiaofeng Xu,Toni Shiroka, ZrOsSi: A Z2 topological metal with a superconducting ground state, Frontiers in Physics. 11, 1256166 (2023).
  4. Bin Li*, Yeqian Yang, Yuxiang Fan, Cong Zhu, Shengli Liu and Zhixiang Shi, Superconductivity and phase transitions in Kagome compound Pd3P2S8 from first-principles calculation, J. Phys.: Condens. Matter 35 495401 (2023).
  5. Bin Li*, Yeqian Yang, Yuxiang Fan, Cong Zhu, Shengli Liu, and Zhixiang Shi, Theoretical Predictions on Superconducting Phase above Room Temperature in Lutetium-Beryllium Hydrides at High Pressures, Chin. Phys. Lett. 40 097402 (2023).
  6. Xiaofeng Hao, Yan Bai, Bin Li*, Zhixiang Shi, First-principles investigation on the high-pressure phase transitions and elastic constants of chromium nitrides. AIP Advances, 13 (6), 065219 (2023).
  7. Wen Huang, Pengjie Hang, Xuwen Xia, Bin Li, Biao Li, Chenxia Kan, Huixing Zhang, Chen Zhu, Chenhao Wang, Xiaodong Zhu, Deren Yang, Xiaodong Pi, Xuegong Yu, Xing’ao Li, Two-terminal self-rectifying optoelectronic synaptic devices with largest-dynamic-range updates, Applied Materials Today, 30, 101728, (2023).
  8. Bin Li*, Yan Bai, Yu Hou, Xiaofeng Hao, Yeqian Yang, Shengli Liu, Jie Cheng, Zhixiang Shi, Novel high-pressure phases with superconductivity and superhardness in cerium nitrides predicted from first-principles calculations, Materials Today Communications, 34, 105168 (2023).
  9. Yi Liu, Chun-Qiang Xu, Wen-He Jiao, Ping-Gen Cai, Bin Li, Wei Zhou, Bin Qian, Xue-Fan Jiang, Kalaivaman R, Raman Sankar, Xiang-Lin Ke, Guang-Han Cao & Xiao-Feng Xu. Anisotropic transport in a possible quasi-one-dimensional topological candidate: TaNi2Te3. Tungsten 5, 325–331 (2023).

2022

  1. Cheng, J., Xu, J., Xiang, Y., Liu, S., Chi, F., Li, B., & Dong, P. Enhancing terahertz photonic spin Hall effect via optical Tamm state and the sensing application. Chinese Physics B, 31(12), 124202 (2022).
  2. Jie Cheng, Yinjie Xiang, Gaojun Wang, Jiahao Xu, Peng Dong, Bin Li, Fengfeng Chi, and Shengli Liu, “Enhanced photonic spin Hall effect of reflected light from a doubly linear gradient-refractive-index material,” Appl. Opt. 61, 4693-4698 (2022).
  3. Yu Hou, Bin Li*, Yan Bai, Xiaofeng Hao, Yeqian Yang, Fengfeng Chi, Shengli Liu, Jie Cheng and Zhixiang Shi, Superconductivity in CeBeH8 and CeBH8 at moderate pressures, J. Phys.: Condens. Matter 34 505403 (2022).
  4. Chengxu Liu, Bin Li, Yongheng Ge, Chuanying Xi, Yi Liu, Chunqiang Xu, Qi Lu, Yunlong Li, Hang-Qiang Qiu, Qin-Qing Zhu, Yu-Ke Li, Zhi Ren, Ziming Zhu, Dong Qian, Xianglin Ke, Xiaofeng Xu, Wen-He Jiao, de Haas-van Alphen effect and the first-principles study of the possible topological stannide Cu3Sn, Journal of Alloys and Compounds, 928, 167017, (2022).
  5. Yan Meng, Xiangzhuo Xing, Xiaolei Yi, Bin Li, Nan Zhou, Meng Li, Yufeng Zhang, Wei Wei, Jiajia Feng, Kensei Terashima, Yoshihiko Takano, Yue Sun, and Zhixiang Shi, Protonation-induced discrete superconducting phases in bulk FeSe single crystals, Phys. Rev. B 105, 134506 (2022).
  6. Xiao-Min Zhang, Bin Li, Structural, magnetic, electronic, and phonon properties of NdNiO2 under pressure from first-principles, Journal of Solid State Chemistry, 306, 122806, (2022).
  7. Sudeep K. Ghosh, P. K. Biswas, Chunqiang Xu, B. Li, J. Z. Zhao, A. D. Hillier, and Xiaofeng Xu, Time-reversal symmetry breaking superconductivity in three-dimensional Dirac semimetallic silicides, Phys. Rev. Research 4, L012031 (2022).
  8. Sixuan Wu, Bin Li*, Zhi Chen, Yu Hou, Yan Bai, Xiaofeng Hao, Yeqian Yang, Shengli Liu, Jie Cheng, and Zhixiang Shi, “Phase transitions and superconductivity in ternary hydride Li2SiH6 at high pressures”, Journal of Applied Physics 131, 065901 (2022).
  9. Rende Miao, Xiaofeng Hao, Sixuan Wu, Bin Li* & Jun Yang. First-Principles Prediction of Superconductivity in Hole Doping of MgCN2. J Supercond Nov Magn 35, 339-343 (2022).

2021

  1. Xiao Shaozhu, Li Yinxiang, Li Yong, Yang Xiufu, Zhang Shiju, Liu Wei, Wu Xianxin, Li Bin, Arita Masashi, Shimada Kenya, Shi Youguo, He Shaolong, Direct evidence of electron-hole compensation for extreme magnetoresistance in topologically trivial YBi, Phys. Rev. B.103.115119 (2021).
  2. C. Q. Xu†, B. Li†, L. Zhang, J. Pollanen, X. L. Yi, X. Z. Xing, Y. Liu, J. H. Wang, Zengwei Zhu, Z. X. Shi, Xiaofeng Xu, and X. Ke, Superconductivity in PtPb4 with possible nontrivial band topology, Phys. Rev. B 104, 125127 (2021).
  3. Zhongyuan Li, Chongyang Zhang, Bin Li, Cong Lin, Ye Li, Le Wang, Rong-Jun Xie, Large-scale room-temperature synthesis of high-efficiency lead-free perovskite derivative (NH4)2SnCl6:Te phosphor for warm wLEDs, Chemical Engineering Journal 420, 1, 129740, (2021).
  4. Wen-He Jiao†, Shaozhu Xiao†, Bin Li†, Chunqiang Xu†, Xiao-Meng Xie, Hang-Qiang Qiu, Xiaofeng Xu, Yi Liu, Shi-Jie Song, Wei Zhou, Hui-Fei Zhai, X. Ke, Shaolong He, and Guang-Han Cao, Anisotropic transport and de Haas–van Alphen oscillations in quasi-one-dimensional TaPtTe5, Phys. Rev. B 103, 125150 (2021).
  5. Haijun Zhao, Wenchong Li, Yue Chen, Chunqiang Xu, Bin Li, Weidong Luo, Dong Qian & Zhixiang Shi*, Transport property of multi-band topological material PtBi2 studied by maximum entropy mobility spectrum analysis (MEMSA). Sci. Rep.11, 6249 (2021).
  6. Y. X. Zhou, B. Li, Z. F. Lou, H. C. Chen, Q. Chen, B. J. Xu, C. X. Wu, J. H. Du, J. H. Yang, H. D. Wang, and M. H. Fang, Bulk superconductivity in the Dirac semimetal TlSb, Sci. China-Phys. Mech. Astron. 64, 247411 (2021).
  7. Lining Wang, Shengli Liu, Xu Chen, Bin Li, Fengfeng Chi, Jie Cheng, Zhihe Wang. Antisite Defect and Magnetic Frustration in Double Perovskite Ln2CuRuO6 (Ln = La, Pr) Compounds. J Supercond Nov Magn 34, 851–857 (2021).

2020

  1. Fengfeng Chi, Wenjuan Dai, Bin Jiang, Bibo Lou, Xiantao Wei,* Bin Li, Jie Cheng, Shengli Liu and Min Yin, Investigation of the thermal quenching of two emission centers in Sr9MnLi(PO4)7:Eu2+ using time-resolved technique, Phys. Chem. Chem. Phys., 22, 15632-15639 (2020).
  2. Chunqiang Xu, Yi Liu, Pinggen Cai, Bin Li, Wenhe Jiao, Yunlong Li, Junyi Zhang, Wei Zhou, Bin Qian, Xuefan Jiang, Zhixiang Shi, Raman Sankar, Jinglei Zhang, Feng Yang, Zengwei Zhu, Pabitra Biswas, Dong Qian, Xianglin Ke, and Xiaofeng Xu, Anisotropic Transport and Quantum Oscillations in the Quasi-One-Dimensional TaNiTe5: Evidence for the Nontrivial Band Topology, J. Phys. Chem. Lett. 11 (18), 7782-7789 (2020).
  3. Wen-He Jiao, Xiao-Meng Xie, Yi Liu, Xiaofeng Xu, Bin Li, Chun-Qiang Xu, Ji-Yong Liu, Wei Zhou, Yu-Ke Li, Hai-Yang Yang, Shan Jiang, Yongkang Luo, Zeng-Wei Zhu, and Guang-Han Cao, Topological Dirac states in a layered telluride TaPdTe5 with quasi-one-dimensional PdTe2 chains, Phys. Rev. B 102, 075141 (2020).
  4. Miriam Peña-Alvarez, Bin Li, Liam C. Kelsall, Jack Binns, Philip Dalladay-Simpson, Andreas Hermann, Ross T. Howie, and Eugene Gregoryanz, Synthesis of Superconducting Cobalt Trihydride, J. Phys. Chem. Lett. 11(15), 6420-6425 (2020).
  5. Nan Zhou, Yue Sun, C. Q. Xu, C. Y. Xi, Z. S. Wang, B. Li, J. J. Feng, L. Zhang, X. Z. Xing, Y. F. Zhang, Y. Q. Pan, Y. Meng, X. L. Yi, L. Pi, Xiaofeng Xu, and Zhixiang Shi, Quantum oscillations and anomalous angle-dependent magnetoresistance in the topological candidate Ag3Sn, Phys. Rev. B 101, 245102 (2020).
  6. Wei Xia, Xianbiao Shi, Yong Zhang, Hao Su, Qin Wang, Linchao Ding, Leiming Chen, Xia Wang, Zhiqiang Zou, Na Yu, Li Pi, Yufeng Hao, Bin Li, Zengwei Zhu, Weiwei Zhao, Xufeng Kou, and Yanfeng Guo, Bulk Fermi surface of the layered superconductor TaSe3 with three-dimensional strong topological state, Phys. Rev. B 101, 155117 (2020).
  7. Jiajia Feng, Resta A. Susilo, Bencheng Lin, Wen Deng, Yanju Wang, Bin Li, Kai Jiang, Zhiqiang Chen, Xiangzhuo Xing, Zhixiang Shi,* Chunlei Wang,* and Bin Chen*, Achieving Room-Temperature Charge Density Wave in Transition Metal Dichalcogenide 1T-VSe2, Adv. Electron. Mater. 6, 1901427 (2020).
  8. Ziwan Song, Bin Li*, Tong Chen, Pabitra K Biswas, Chunqiang Xu, Sixuan Wu, Bin Qian, Xiaofeng Xu and Jian Sun, Pressure engineering of the Dirac fermions in quasi-one-dimensional Tl2Mo6Se6, J. Phys.: Condens. Matter 32, 215402 (2020).
  9. Lei Ti, Sixuan Wu, Bin Li*, Yuheng Shi, Ziwan Song, Zilong Miao, and Zhixiang Shi, Application of machine learning in material property prediction, Adv. Condens. Matter Phys, 9(2), 11-19 (2020).

2019

  1. Bin Li*, Zilong Miao, Lei Ti, Shengli Liu, Jie Chen, Zhixiang Shi, and Eugene Gregoryanz, Predicted high-temperature superconductivity in cerium hydrides at high pressures, Journal of Applied Physics 126, 235901 (2019).
  2. C. Q. Xu†, B. Li†, J. J. Feng†, W. H. Jiao, Y. K. Li, S. W. Liu, Y. X. Zhou, R. Sankar, Nikolai D. Zhigadlo, H. B. Wang, Z. D. Han, B. Qian, W. Ye, W. Zhou, T. Shiroka, Pabitra K. Biswas, Xiaofeng Xu, and Z. X. Shi, Two-gap superconductivity and topological surface states in TaOsSi. Phys. Rev. B 100, 134503 (2019).
  3. Yue Zhao, Hui Yuan Dong, Songwei Zhao, Suwei Min, Jie Cheng, Bin Li, Fengfeng Chi, and Shengli Liu, Design of broadband impedance-matching Bessel lens with acoustic metamaterials. J. Appl. Phys. 126, 065103 (2019).
  4. Weijie Guo, Nan Chen, Binbin Xu, Yijun Lu, Bin Li , Tingzhu Wu , Qijin Cheng, Yang Li , Jin Chen, Yue Lin, and Zhong Chen, Stability of Hybrid Organic-Inorganic Perovskite CH3NH3PbBr3 Nanocrystals under Co-Stresses of UV Light Illumination and Temperature. Nanomaterials 9, 1158 (2019).
  5. Xingyu Zhang, Bin Li, Jie Cheng, Xu Chen, Lining Wang, Zilong Miu, Ziwan Song, Fengfeng Chi, Shengli Liu and Z H Wang, Weak ferromagnetic insulator with huge coercivity in monoclinic double perovskite La2CuIrO6. J. Phys.: Condens. Matter 31 435601 (2019).
  6. Wei Zhou†, Bin Li†, Chun Qiang Xu†, Maarten R. van Delft, Yu Ge Chen, Xiao Chen Fan, Bin Qian, Nigel E. Hussey, Xiaofeng Xu, Nonsaturating Magnetoresistance and Nontrivial Band Topology of Type-II Weyl Semimetal NbIrTe4. Adv. Electron. Mater. 5, 1900250 (2019).
  7. C. Q. Xu†, B. Li†, M. R. van Delft†, W. H. Jiao, W. Zhou, B. Qian, Nikolai D. Zhigadlo, Dong Qian, R. Sankar, N. E. Hussey, and Xiaofeng Xu. Extreme magnetoresistance and pressure-induced superconductivity in the topological semimetal candidate YBi. Physical Review B 99(2), 024110 (2019).
  8. MIAO Zilong, TI Lei, SONG Ziwan, LI Bin*, ZHAo Zhigang, SHI Zhixiang, Calculation Study on Magnetic and Band Structures in Slater Insulators. LOW TEMPERATURE PHYSICAL LETTERS, (1), 62-68 (2019).

2018

  1. Tao Z, Chen FJ, Zhou LY, Li B, Tao YC, Wang J, Superconductivity switch from spin-singlet to -triplet pairing in a topological superconducting junction, Journal of Physics: Condensed Matter 30(22), 225302 (2018).
  2. Chunqiang Xu†, Bin Li†, Wenhe Jiao, Wei Zhou, Bin Qian, Raman Sankar, Nikolai D. Zhigadlo, Yanpeng Qi, Dong Qian, Fang-Cheng Chou, and Xiaofeng Xu, Topological Type-II Dirac Fermions Approaching the Fermi Level in a Transition Metal Dichalcogenide NiTe2, Chem. Mater. 30(14), 4823-4830, (2018).
  3. Jie Cheng, Peng Dong, Bin Li, Shengli Liu, Xiangfu Wang, Yu Wang and Xing’ao Li, Enhanced insulating behavior in the Ir-vacant Sr2Ir1-xO4 system dominated by the local structure distortion, J. Synchrotron Rad. 25: 1123-1128 (2018).
  4. W. Zhou, C. Q. Xu, B. Li, R. Sankar, F. M. Zhang, B. Qian, C. Cao, J. H. Dai, Jianming Lu, W. X. Jiang, Dong Qian, and Xiaofeng Xu, Kondo behavior and metamagnetic phase transition in the heavy-fermion compound CeBi2, Phys. Rev B 97, 195120 (2018).
  5. B. Li, C. Q. Xu, W. Zhou, W. H. Jiao, R. Sankar, F. M. Zhang, H. H. Hou, X. F. Jiang, B. Qian, B. Chen, A. F. Bangura and Xiaofeng Xu, Evidence of s-wave superconductivity in the noncentrosymmetric La7Ir3, Scientific Reports 8, 651 (2018).

2017

  1. Huiting Yu, Shengli Liu, Bin Li, Haiyun Wang, Jie Cheng and Z. H. Wang, Enhanced insulating state and diluted Ir4+ spin orders in Ir-vacant Sr2Ir1−xO4 systems, EPL 120, 27007 (2017).
  2. W. Zhou, F. Ke, Xiaofeng Xu, R. Sankar, X. Xing, C. Q. Xu, X. F. Jiang, B. Qian, N. Zhou, Y. Zhang, M. Xu, B. Li, B. Chen, and Z. X. Shi, Correlation between non-Fermi-liquid behavior and superconductivity in (Ca, La)(Fe,Co)As2 iron arsenides: A high-pressure study, Phys. Rev B 96, 184503 (2017).
  3. Wei Wang, Jiafa Sun, Bin Li, and Junqi He, Dynamical instability, strong anharmonicity and electron-phonon coupling in KOs2O6: First-principles calculations, AIP ADVANCES 7, 095221 (2017).
  4. C. Q. Xu, R. Sankar, W. Zhou, Bin Li, Z. D. Han, B. Qian, J. H. Dai, Hengbo Cui, A. F. Bangura, F. C. Chou, and Xiaofeng Xu*, Topological phase transition under pressure in the topological nodal-line superconductor PbTaSe2, Phys. Rev B 96, 064528(2017).
  5. Jie Cheng, Chaomin Zhu, Shengli Liu, Bin Li*, Haiyun Wang, Yu Wang, Wei Xue, A critical point in Sr2-xIrO4 and less distorted IrO6 octahedra induced by deep Sr-vacancies, Materials Research Bulletin 90, 1-7 (2017).
  6. Wei Wang*, Bin Li, Junqi He, Jiafa Sun, The property of phonon gap in Iron-based superconductors FeSe, LiFeAs and SrFeAsF, J Low Temp Phys 186, 363 (2017).

2016

  1. Jie Cheng, Xuanyong Sun, Shengli Liu, Bin Li*, Haiyun Wang, Peng Dong, Yu Wang, Wei Xu, La-doping effect on spin-orbit coupled Sr2IrO4 probed by x-ray absorption spectroscopy, New Journal of Physics 18, 093019 (2016).
  2. C. Q. Xu, X. Z. Xing, Xiaofeng Xu, Bin Li, B. Chen, L. Q. Che, Xin Lu, Jianhui Dai, Z. X. Shi, Synthesis, physical properties, and band structure of the layered bismuthide PtBi2, Phys. Rev B 94, 165119 (2016).
  3. Xuanyong Sun, Shengli Liu, Haiyun Wang, Bin Li, Jie Cheng, Zhihe Wang, Insulator-metal transition in deep Sr-vacant spin-orbit Mott insulator Sr2IrO4, Journal of Alloys and Compounds 687, 712~719 (2016).
  4. Pengchao Lu, Joon-Seok Kim, Jing Yang, Hao Gao, Juefei Wu, Dexi Shao, Bin Li, Dawei Zhou, Jian Sun, Deji Akinwande, Dingyu Xing, Jung-Fu Lin, Origin of superconductivity in the Weyl semimetal WTe2 under pressure, Phys. Rev B 94, 224512 (2016).
  5. X. Z. Xing, C. Q. Xu, N. Zhou, B. Li, Jinglei Zhang, Z. X. Shi, Xiaofeng Xu, Large linear magnetoresistance in a transition-metal stannide β-RhSn4, Appl. Phys. Lett. 109, 122403 (2016).

2014

  1. Li. B., Huang, G., Sun, J. *, Xing, Z. *, Novel structural phases and superconductivity of iridium telluride under high pressures. Sci. Rep. 4, 6433 (2014).
  2. B. Li, Z. W. Xing, G. Q. Huang, D. Y. Xing, Electron-phonon coupling enhanced by the FeSe/SrTiO3 interface. J. Appl. Phys. 115, 193907 (2014).

2013

  1. B. Li, Z. W. Xing*, G. Q. Huang, Phonon spectra and superconductivity of the BiS2-based compounds LaO1-xFxBiS2. EPL 101, 47002 (2013).
  2. G. Q. Huang* and B. Li. Lattice dynamics and electron-phonon interaction in Bi/Bi2Te3(111) heteroepitaxial film. EPL 104, 57003 (2013).

2012

  1. B. Li, Z. W. Xing*, G. Q. Huang, M. Liu, Magnetic-enhanced electron-phonon coupling and vacancy effect in “111”-type iron pnictides from first-principle calculations. J. Appl. Phys. 111, 033922 (2012).

2011

  1. B. Li, Z. W. Xing, M. Liu, Phonon softening induced by striped antiferromagnetic order in LiFeAs. Appl. Phys. Lett. 98, 072506 (2011).
  2. Li Bin*, Xing Zhong-Wen, Liu Mei, Magnetism and phonon softening of LiFeAs superconductors. Acta Phys. Sin. 60(7), 077402 (2011).

2010

  1. B. Li, Z. W. Xing, M. Liu*, Peak effect and dynamic melting transitions of driven vortex system in weakly disordered Josephson junction arrays. J. of Appl. Phys. 108, 103911 (2010).
  2. W. Wang, B. Li, S. Liu, J. Wang, M. Liu*. First-Principles Calculations on β-Pyrochlore Superconductors AOs2O6 (A=K, Rb, Cs). J. Super. and Novel Magn. 23, 1063-1066 (2010) .
  3. W. Wang, B. Li, S. Liu, M. Liu*, and Z. W. Xing. Magnetic fluctuation and frustration in new iron-based layered SrFe1-xCoxAsF Superconductors. J. of Appl. Phys. 107, 123906 (2010).
  4. Liu Su*, Li Bin, Wang Wei et al. Electronic structure and magnetism of SrFeAsF and Co-doped superconductor SrFe0.875Co0.125AsF. Acta Phys. Sin. 59(6), 4245-4252 (2010).
  5. W. Wang, B. Li, J. Wang, Magnetic and electronic structure in new iron-based layered SrFe1-xCoxAsF systems, Physics Letters A 374(7), 984-988 (2010).

2009

  1. Zhao Zhi-Gang, Xu Zi-Wei, Li Bin, Liu Mei*. Magnetic-field-induced phase transition of vortex glass states in disordered Josephson junction arrays. Acta Phys. Sin. 58(8), 5750-5756 (2009).

🎖 Honors and Awards

  • 2022, Outstanding Master’s Supervisor of NJUPT

📖 Educations

  • 2007.09 - 2012.04, PhD in Condensed Matter Physics, Southeast University.
  • 2003.09 - 2017.06, Bachelor in Applied Physics, Southeast Univeristy.

💬 Talks

  • 2018.07.27, Superconductivity in Titanium Hydrides at High Pressures, HPSP-18 & WHS2, Barcelona, Spain.

💻 Employments

  • 2014.04 - Now, Nanjing Unviversity of Posts and Telecommunications, Nanjing, Jiangsu, China.
  • 2020.02 - 2021.03, The University of Edinburgh, Visiting researcher (School of Physics and Astronomy), Edinburgh, GB.
  • 2012.04 - 2014.04, Nanjing Unviversity, Postdoc (School of Physics), Nanjing, Jiangsu, China.

👨‍🏫 Courses

  • Group Theory and its Applications in Physics
  • Physical Experiments
  • Brief College Physics

🧩 Codes

  • CRYSTREE CRYSTREE is an out-of-the-box crystal structure prediction tool based on the random forest method. It is compatible with most Unix-like systems and the Windows Subsystem for Linux (WSL).
  • MAGUS MAGUS (Machine Learning and Graph Theory-Assisted Universal Structure Searcher) is a computational tool designed for advanced structure exploration. I contributed to its development and implementation.

🔗 Links

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