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Who I AM ?

Hi, I am Jiangxu Li, a postdoctor at institute of metal research(IMR), Chinese academy of sciences(CAS).

I am interested in condensed matter physics such as Models, Mehtods and Materials(“3M”). I have done a lot work of topological electrons and topological phonons. Combining topological theory and high-throughput algorithm, thousands of topological phonons have been predicted and exciting consequences can be expected by manipulating phonons for potential applications in topological superconductivity, thermoelectric and novel phonon devices, which may even make a significant technological revolution in our society. I am also interested in exploring dynamical behaviorsthat evolve in strong correlation quantum many body systems out of equilibrium due to quenches and ramps. Rapid developments on the precisely controlled manipulation of systems at the level of single atoms provide us unprecedented opportunities to realize the advanced theory in real quantum systems. I am interested to use mathematical physics to get a comprehensive under- standing of dynamics properties of non-equilibrium quantum, many-body localization and quantum thermodynamics.

List of publications:

($\ast$ the corresponding author. $\dagger$ the equal contributor.)

arXiv

  1. Weyl Ferroelectric Semimetal

    R. H. Li, Y. F. Xu, J. G. He, S. Ullah, J. X. Li, C. Franchini, and X.-Q. Chen

    arXiv:1610.07142

2023

  1. Symmetry breaking induced insulating electronic state in Pb9Cu(PO4)6O

    J. X. Liu, T. Y. Yu, J. X. Li$^\ast$, J. T. Wang, J. W. Lai, Y. Sun, X.-Q. Chen, and P. T. Liu$^\ast$

    Phys. Rev. B 108, L161101 (Letter) (2023)

  1. Symmetry-enforced topological phononic quadratic Dirac points, type-III nodal rings, and nodal surfaces in BaNa2

    J. X. Liu, P. T. Liu, Y. Sun, X.-Q. Chen and J. X. Li$^\ast$

    Phys. Rev. B 108, 104312 (2023)

  1. Direct Observation of Topological Phonons in Graphene

    J. D. Li$^\dagger$, J. X. Li$^\dagger$, J. L. Tang, Z. Y. Tao, S. W. Xue, J. X. Liu, H. L. Peng, X.-Q. Chen, J. D. Guo, and X. T. Zhu

    Phys. Rev. Lett. 131, 116602 (2023) (Editors’ Suggestion, Featured in Physics)

  1. Dirac nodal line induced anomalous low-energy acoustic plasmons on beryllium (0001) surface

    R. H. Li$^\dagger$, J. X. Li$^\dagger$, P. T. Liu, Y. Sun, and X.-Q. Chen

    Phys. Rev. B 107, 195408 (2023)

  2. Parent structures of near-ambient nitrogen-doped lutetium hydride superconductor

    M. Liu$^\dagger$, X. Liu$^\dagger$, J. X. Li$^\dagger$, J. X. Liu, Y. Sun, X.-Q. Chen and P. T. Liu

    Phys. Rev. B 108, L020102 (Letter) (2023)

  3. Coexistence of Weyl semimetal and Weyl nodal loop semimetal phases in a collinear antiferromagnet

    J. Zhan, J. X. Li, W. J. Shi, X.-Q. Chen, and Y. Sun

    Phys. Rev. B 107, 224402 (2023)

  4. Microscopic Mechanism of Enhanced Catalytic Activity for Ammonia Synthesis in Y5M3 (M = Si/Ge) Electrides

    Y. Cao, P. T. Liu, J. X. Li, J. T. Wang, Y. Sun, and X.-Q. Chen

    J. Phys. Chem. C 127, 2953 (2023)

  5. Unlocking rapid and robust sodium storage of fluorophosphate cathode via multivalent anion substitution

    H. Zhou, Z. Cao, Y. Zhou, J. X. Li, Z. Ling, G. Fang, S. Q. Liang, and X. X. Cao

    Nano Energy 114, 108604 (2023)

  6. Segregation of Re at the γ/γ’ boundary of Ni-based single crystal superalloys revealed by first-principles calculations-based Monte-Carlo simulations

    H. Zhu, J. Wang, L. Wang, Y. Shi, M. Liu, J. X. Li, Yun Chen, P. T. Liu, and Xing-Qiu Chen

    J. Mater. Sci. Technol 143, 54 (2023)

  7. Hardness and fracture toughness models by symbolic regression

    J. B. Zhao, P. T. Liu, J. T. Wang, J. X. Li, H. Y. Niu, Y. Sun, J. L. Li, and X.-Q. Chen*

    Eur. Phys. J. Plus 138, 643 (2023)

2022

  1. Two-dimensional Obstructed Atomic Insulators with Fractional Corner Charge in MA2Z4 Family

    L. Wang, Y. Jiang, J. X. Liu, S. Zhang, J. X. Li, P. T. Liu, Y. Sun, H, M. Weng, and X.-Q. Chen

    Phys. Rev. B 106, 155144 (2022)

  2. An ion-sieving Janus separator toward the planar electrodeposition for deeply rechargeable Zn-metal anodes.

    X. T. Zhang$^\dagger$, J. X. Li$^\dagger$, K. Qi, Y. Yang, D. Liu, S. Liang, B. Lu, Y. Zhu, and J. Zhou

    Adv. Mater. 2205175 (2022)

  3. Surface-dominated ultra-stable sodium and potassium storage enabled by N/P/O tridoped porous carbon

    H. Ou, J. Huang, Y. Zhou, J. Zhu, G. Fang, X. Cao, J. X. Li$^\ast$, S. Liang

    Chem. Eng. J. 138444 (2022)

  4. A comprehensive experimental and first-principles study on magnesium-vanadium oxides

    X. Jin, R. Wang, Y. Zhou, J. Lai, J. X. Li, G. Pei, X. Wang, J. Xiang, Z. Zhu, and X. Lv

    J. Alloy. Compd. 896, 162862 (2022)

  5. Bonding inhomogeneity and strong anharmonicity induce ultralow lattice thermal conductivity in calcium pyrovanadate

    X. Jin, G. Pei, M. Jiao, R. Li, J. X. Li, Y. Li, R. Wang, and X. W. Lv

    J. Phys. Chem. C 38, 16492 (2022)

2021

  1. Computation and data driven discovery of topological phononic materials

    J. X. Li, J. X. Liu, S. A. Baronett, R. H. Li, L. Wang, Q. Zhu and and X.-Q. Chen

    Nat. Commun. 12, 1204 (2021)

    We have constructed the corresponding online database, available at

    https://tpdb.physics.unlv.edu/home

    http://www.phonon.synl.ac.cn

  2. Ultra-long-life and highly reversible Zn metal anodes enabled by a desolvation and deanionization interface layer

    X. T. Zhang, J. X. Li, D. Y. Liu, M. K. Liu, T. S. Zhou, Y. C. Zhu, and Y. T. Qian

    Energy Environ. Sci. 14, 3120 (2021)

  3. Topological phononic materials: Computation and data

    X.-Q. Chen, J. X. Liu, and J. X. Li

    The Innovation 2, 100134 (2021)

  4. Topological nodal line and superconductivity of highly thermally stable two-dimensional TiB4

    L. Wang, M. F. Liu, J. X. Li, R. H. Li, H. Ma, and X.-Q. Chen

    Phys. Rev. B 104, 195123 (2021)

2020

  1. Topological phonons in graphene

    J. X. Li, L. Wang, J. X. Liu, R. H. Li, Z. Y. Zhang and X.-Q. Chen

    Phys. Rev. B 101, 081403(R) (2020)

  2. Phononic Weyl nodal straight lines in MgB2

    J. X. Li, Q.Xie, J. X. Liu, R. H. Li, M. Liu, L. Wang and X.-Q. Chen

    Phys. Rev. B 101, 024301 (2020)

  3. Appropriately hydrophilic/hydrophobic cathode enables high-performance aqueous zinc-ion batteries

    X. T. Zhang, J. X. Li, H. S. Ao, D. Y. Liu, L. Shi, C. M. Wang, Y. C. Zhu, and Y. T. Qian

    Energy Storage Mater. 30, 337 (2020)

  4. Engineering interfacial adhesion for high-performance lithium metal anode

    B. Q. Xu, Z. Liu, J. X. Li, X. Huang, D. Paley, X. B. Liao, L.-Q. Chen, C.-W. Nan, Y.-H. Lin, and Y. Yang

    Nano Energy 67, 104242 (2020)

  5. Enhanced optoelectronic performance of 3C-SiC/ZnO heterostructure photodetector based on Piezo- phototronic effects

    X. Zhang, H. Wang, J. Zhang, J. X. Li, Z. Y. Ma, J. Li, B. Leng, P. J. Niu and B. D. Liu

    Nano Energy 77, 105119 (2020)

  6. Two-dimensional topological semimetal states in monolayer Cu2Ge, Fe2Ge, and Fe2Sn

    L. Liu, C. Wang, J. X. Li, X.-Q. Chen, Y. Jia and J.-H. Cho

    Phys. Rev. B 101, 165403 (2020)

  7. General principles to high-throughput constructing two-dimensional carbon allotropes

    Q. Xie, L. Wang, J. X. Li, R. H. Li and X.-Q. Chen

    Chinese Phys. B 29, 037306 (2020)

2019

  1. Topological Dirac Metal of beta-Tungsten

    J. X. Li, S. Ullah, R. H. Li, M. F. Liu, H. T. Cao, D. Z. Li, Y. Y. Li, and X.-Q. Chen

    Phys. Rev. B 99, 165110 (2019)

  2. Underlying topological Dirac nodal line mechanism of anomalously large electron-phonon coupling strength on Be (0001) surface

    R. H. Li$^\dagger$, J. X. Li$^\dagger$, L. Wang, H. Ma, H.-F. Song, D. Z. Li, Y. Y. Li, and X.-Q. Chen

    Phys. Rev. Lett. 123, 136802 (2019) (Editors’ suggestion)

  3. Phononic Weyl points in non-centrosymmetric WC-type materials

    Q. Xie$^\dagger$, J. X. Li$^\dagger$, D. Z. Li, Y. Y. Li, S. Yunoki, and X.-Q. Chen

    Phys. Rev. B 99, 174306 (2019)

  4. Structural, elastic, and electronic properties of topological semimetal WC-type MX family by first-principles calculation

    S. Ullah, L. Wang, J. X. Li, R. H. Li and X.-Q. Chen

    Chinese Phys. B 28, 077105 (2019)

  5. The energy storage properties of a two-dimensional TiB4 monolayer

    Z. Y. Liu, E. D. Wu, J. X. Li, S. Liu

    Phys. Chem. Chem. Phys. 21, 13151 (2019)

2018

  1. Coexistent three-component and two-component Weyl phonons in TiS, ZrSe, and HfTe

    J. X. Li, Q. Xie, S. Ullah, R. H. Li, H. M, D. Z. Li, Y. Y. Li and X.-Q. Chen

    Phys. Rev. B 97, 054305 (2018)

2017

  1. Topological quantum catalyst: Dirac nodal line states and a potential electrocatalyst of hydrogen evolution in the TiSi family

    J. X. Li, H. Ma, Q. Xie, S. Feng, S. Ullah, R. H. Li, J. H. Dong, D. Z. Li, Y. Y. Li and X.-Q. Chen.

    Sci. China Mater. 61, 23 (2017) (Cover)

2016

  1. Assessment of the CSL and SU models for bcc-Fe grain boundaries from first principles

    J. Xu, Y. Jiang, L. Yang, and J. X. Li

    Comput. Mater. Sci. 122 (10), 22 (2016)

Contact Information

E-mail: jxli15s@imr.ac.cn

Addr : 72 Wenhua Road, Shenyang, Liaoning, 110016, China


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