Education & Working Experience

2021.03-Now   Department of Thermal Science and Energy Engineering, University of Science and Technology Beijing, Lecturer.

2018.10-2021.02 Beijing University of Technology, School of Materials Science and Engineering, Postdoc.

2010.09-2018.06 University of Science and Technology Beijing, School of Materials Science and Engineering, Master and Ph.D.

2006.09-2010.06 Hebei University of Science and Technology, School of Materials Science and Engineering, Bachelor.

Academic Achievements

Main journal publications：

1. Z. W. Liu; P. Li; G. Q. Suo; S. Gong; W. A. Wang; C. Y. Lao; Y. J. Xie; H. Guo; Q. Y. Yu; W. Zhao; K. Han; Q. Wang; M. L. Qin; K. Xi; X. H. Qu. Zero-strain K0.6Mn1F2.7 hollow nanocubes for ultrastable potassium ion storage. Energy & Environmental Science, 2018, 11(10): 3033-3042. (IF = 30.289)

2. Z. W. Liu; H. Su; Y. B. Yang; T. H. Wu; S. H. Sun; H. J. Yu. Advances and Perspectives on Transitional Metal Layered Oxides for Potassium-Ion Battery. Energy Storage Materials, 2021, 34: 211-228. (IF = 16.28)

3. Z. W. Liu; X. T. Huo; K. Xi; P. Li; L. N. Yue; M. Huang; G. Q. Suo; L. Xu; W. Wang; X. H. Qu. Thickness controllable and mass produced WC@C@Pt hybrid for efficient hydrogen production. Energy Storage Materials, 2018, 10: 268-274. (IF = 16.28)

4. K. Han†; Z. W. Liu†; P. Li; Q. Y. Yu; W. A. Wang; C. Y. Lao; D. L. He; W. Zhao; G. Q. Suo; H. Guo; L. Song; M. L. Qin; X. H. Qu. High-throughput fabrication of 3D N-doped graphenic framework coupled with Fe3C@ porous graphite carbon for ultrastable potassium ion storage. Energy Storage Materials, 2019, 22: 185-193. (†共同一作, IF = 16.28)

5. Z. W. Liu; K. Han; P. Li; W. Wang; D. L. He; Q. W. Tan; L. Y. Wang; Y. Li; M. L. Qin; X. H. Qu. Tuning metallic Co0.85Se quantum dots/carbon hollow polyhedrons with tertiary hierarchical structure for high-performance potassium ion batteries. Nano-Micro Letters, 2019,11: 96. (IF= 12.264)

6. Z. W. Liu; P. Li; Y. Dong; Q. Wan; F. Q. Zhai; A. A. Volinsky; X. H. Qu. Facile preparation of hexagonal WO3·0.33H2O/C nanostructures and its electrochemical properties for lithium-ion batteries. Applied surface science, 2017, 394: 70-77. (IF= 6.182)

7. Z. W. Liu; P. Li; Q. Wan; D. Y. Zhang; A. A. Volinsky; X. H. Qu. Low-temperature combustion synthesis of hexagonal WO3·0.33H2O@C as anode material for lithium ion batteries. Journal of Alloys and Compounds, 2017, 701: 215-221. (IF = 4.65)

8. Z. W. Liu; P. Li; F. Q. Zhai; Q. Wan; A. A. Volinsky; X. H. Qu. Amorphous carbon modified nano-sized tungsten carbide as a gas diffusion electrode catalyst for the oxygen reduction reaction. RSC Advances, 2015, 5(87): 70743-70748. (IF = 3.119)

9. P. Li; Z. W. Liu†; L. Q. Cui; F. Q. Zhai; Q. Wan; Z. L. Li; Z. G. Z. Fang; A. A. Volinsky; X. H. Qu. Tungsten carbide synthesized by low-temperature combustion as gas diffusion electrode catalyst. International Journal of Hydrogen Energy, 2014, 39(21): 10911-10920. (†导师一作, IF= 4.939)

10. L. Zhang; Z. W. Liu; H. S. Sun; M. L. Qin; X. H. Qu; Y. Z. Lyu. Dynamic properties of high-density low-alloy PM steels. Powder Metallurgy, 2017, 60(1): 56-65. (IF = 1.793)

11. L.D. Xing, K. Han, Q. Liu, Z. W. Liu, J. H. Chu, L. P. Zhang, X. M. Ma, Y. P. Bao, P. Li, W. A. Wang. Hierarchical two-atom-layered WSe2/C ultrathin crumpled nanosheets assemblies: Engineering the interlayer spacing boosts potassium-ion storage. Energy Storage Materials, 2021, 36: 309-317. (IF= 16.28)

12. D. He; B. Y. Wang; T. H. Wu; H. Su; X. Zhang; Y. Ren; G. L. Xu; Z. W. Liu; J. S. Wang; K. Amine; H. J. Yu. TiO2 Nanocrystal-Framed Li2TiSiO5 Platelets for Low-Voltage Lithium Battery Anode, Advanced Functional Materials, 2020, 2001909. (IF = 16.836)

13. M. Q. Xiang; M. Song; Q. S. Zhu; Y. F. Yang; C. Q. Hu; Z. W. Liu; H. D. Zhao; Y. Ge. Inducing Two-Dimensional Single Crystal TiN Arrays with Exposed {111} Facets by A Novel Chemical Vapor Deposition with Excellent Electrocatalytic Activity for Hydrogen Evolution Reaction. Chemical Engineering Journal, 2020, 126451. (IF = 10.652)

14. K. Han; W. Zhao; Q. Y. Yu; Z. W. Liu; P. Li; W. A. Wang; L. Song; F. Q. An; P. Cao; X. H. Qu. Marcasite-FeS2@carbon nanodots anchored on 3D cell-like graphenic matrix for high-rate and ultrastable potassium ion storage. Journal of Power Sources, 2020, 469: 228429. (IF= 8.247)

15. S. Sun; D. L. He; P. Li; Y. Liu; Q. Wan; Q. W. Tan; Z. W. Liu; F. Q. An; G. X. Gong; X. H. Qu. Improved adhesion of cross-linked binder and SiO2-coating enhances structural and cyclic stability of silicon electrodes for lithium-ion batteries. Journal of Power Sources, 2020, 454: 227907. (IF= 8.247)

16. G. Q. Suo; D. Li; Z. W. Liu; W. A. Wang; M. He; Q. Y. Yu; Y. L. Yang; X. J. Hou; L. Feng. Tuning defect and hollow size of metallic KxCoF3 for ultrastable potassium storage. Energy Storage Materials, 2019, 21: 196-202. (IF= 16.28)

17. D. L. He; P. Li; W. Wang; Q. Wan; J. Zhang; K. Xi; X. M. Ma; Z. W. Liu; L. Zhang; X. H. Qu. Collaborative Design of Hollow Nanocubes, In Situ Cross-Linked Binder, and Amorphous Void@ SiOx@C as a Three-Pronged Strategy for Ultrastable Lithium Storage. Small, 2019, 1905736. (IF= 11.459)

18. S. M. He; J. Wang; X. Zhang; J. Z. Chen; Z. C. Wang; T. T. Yang; Z. W. Liu; Y. Liang; B. Y. Wang; S. Q. Liu; L. Q. Zhang; J. Y. Huang; J. Huang; L. A. O. O'Dell;  H. J. Yu. A High-Energy Aqueous Aluminum-Manganese Battery. Advanced Functional Materials, 2019, 29: 1905228. (IF = 16.836)

19. M. L. Qin; S. M. Li; Y. Z. Zhao; C. Y. Lao; Z. L. Zhang; L. Liu; F. Fang; H. Y. Wu; B. R. Jia; Z. W. Liu; W. A. Wang; Y. Liu; X. H. Qu. Unprecedented Synthesis of Holey 2D Layered Double Hydroxide Nanomesh for Enhanced Oxygen Evolution. Advanced Energy Materials, 2019, 9(1): 1803060. (IF = 25.245)

20. Y. Liu; D. L. He; Q. W. Tan; Q. Wan; K. Han; Z. W. Liu; P. Li; F. Q. An; X. H. Qu. A synergetic strategy for advanced electrode with Fe3O4 embedded in 3D N-doped porous graphene framework and strong adhesive binder for ultralong cycle lifespan Lithium-/Potassium-Ion batteries. Journal of Materials Chemistry A, 2019, 6: 4883-5230. (IF= 11.301)

21. Q. W. Tan; P. Li; K. Han; Z. W. Liu; Y. Li; W. Zhao; D. L. He; F. Q. An; M. L. Qin; X. H. Qu. Chemically bubbled hollow FexO nanospheres anchored on 3D N-doped few-layer graphene architecture as a performance-enhanced anode material for potassium-ion batteries. Journal of Materials Chemistry A, 2019, 7: 744-754. (IF = 11.301)

22. H. Y. Wu; Q. Y. Yu; C. Y. Lao; M. L. Qin; W. A. Wang; Z. W. Liu; C. Man; L. Y. Wang; B. R. Jia; X. H. Qu. Scalable synthesis of VN quantum dots encapsulated in ultralarge pillared N-doped mesoporous carbon microsheets for superior potassium storage. Energy Storage Materials, 2019, 18: 43-50. (IF = 16.28)

23. Q. W. Tan; W. Zhao; K. Han; P. Li; W. A. Wang; D. L. He; Z. W. Liu; Q. Y. Yu; M. L. Qin; X. H. Qu. FeP@ Foam-Like Graphenic Scaffolds Multi-Yolks/Shell Structure: Strong PC Bonds and Electrolyte-and Binder-Optimizing Boost Potassium Storage. Journal of Materials Chemistry A, 2019, 7: 15673-15682. (IF= 11.301)

24. L. D. Xing; Q. Y. Yu; B. Jiang; J. H. Chu; C.Y. Lao; M. Wang; K. Han; Z. W. Liu; Y. P. Bao; W. A. Wang. Carbon-encapsulated ultrathin MoS2 nanosheets epitaxially grown on porous metallic TiNb2O6 microspheres with unsaturated oxygen atoms for superior potassium storage. Journal of Materials Chemistry A, 2019, 7: 5760-5768. (IF= 11.301)

25. W. Zhao; P. Li; Z. W. Liu; D. L. He; K. Han; H. L. Zhao; X. H. Qu. High-Performance Antimony–Bismuth–Tin Positive Electrode for Liquid Metal Battery. Chemistry of Materials, 2018, 30: 8739-8746. (IF = 9.567)

26. B. R. Jia; Q. Y. Yu; Y. Z. Zhao; M. L. Qin; W. Wang; Z. W. Liu; C. Y. Lao; Y. Liu; H. Y. Wu; Z. L. Zhang; X. H. Qu. Bamboo-Like Hollow Tubes with MoS2/N-Doped-C Interfaces Boost Potassium-Ion Storage. Advanced Functional Materials, 2018, 28: 1803409. (IF = 16.836)

27. Q. Y. Yu; B. Jiang; J. Hu; C. Y. Lao; Y. Z. Gao; P. H. Li; Z. W. Liu; G. Q. Suo; D. L. He; W. A. Wang; G. P. Yin. Metallic Octahedral CoSe2 Threaded by N-Doped Carbon Nanotubes: A Flexible Framework for High-Performance Potassium-Ion Batteries. Advanced Science, 2018, 5: 1800782. (IF = 15.840)

28. H. Y. Wu; M. L. Qin; W. Wang; Z. Q. Cao; Z. W. Liu; Q. Y. Yu; C. Y. Lao; D. Y. Zhang; B. R. Jia; D. L. He; T. T. Liu; A. A. Volinsky; P. Cao; X. H. Qu. Ultrafast synthesis of amorphous VOx embedded into 3D strutted amorphous carbon frameworks-short-range order in dual-amorphous composites boosts lithium storage. Journal of Materials Chemistry A, 2018, 6: 7053-7061. (IF= 11.301)

29. B. R. Jia; Y. Z. Zhao; M. L. Qin; W. Wang; Z. W. Liu; C. Y. Lao; Q. Y. Yu; Y. Liu; H. Y. Wu; Z. L. Zhang; X. H. Qu. Multirole organic-induced scalable synthesis of a mesoporous MoS2-monolayer/carbon composite for high-performance lithium and potassium storage. Journal of Materials Chemistry A, 2018, 6: 11147-11153. (IF = 11.301)

30. J. H. Chu; Q. Y. Yu; D. X. Yang; L. D. Xing; C. Y. Lao; M. Wang; K. Han; Z. W. Liu; L. Zhang; W. Y. Du; K. Xi; Y. P. Bao; W. A. Wang. Thickness-control of ultrathin bimetallic Fe-Mo selenide@ N-doped carbon core/shell “nano-crisps” for high-performance potassium-ion batteries. Applied Materials Today, 2018, 13: 344-351. (IF = 8.352)

Patents

1. A synthesis method of 3D skeletal CoSe2 cathode for potassium ion battery. China Patent (No. ZL201810509082.0)

2. A synthesis method of 3D porous nitrogen-doped graphene modified by iron-based alloy nanoparticles. China Patent (No. ZL201810116859.7)

3. A synthesis method of 3D graphene confinement high hydrogen storage capacity materials modified with iron-based catalysts. China Patent (No. ZL201810116860.X)

4. A synthesis method of Hollow Co0.85Se nano-polyhedral particles. China Patent ( No. ZL201710947140.3)

5. A synthesis method of hollow KMnF3 nano-cube particle. China Patent (No. ZL201710947281.5)

6. A synthesis method of CrF3·3H2O with yolk-shell structure. China Patent (No. ZL201710946633.5)

7. A synthesis method of Co9Se8 nanoparticles with yolk-shell structure. China Patent (No. ZL201710947163.4)

8. Synthesis of hexagonal structure WO3·0.33H2O powders. China Patent (No. ZL201510836537.6)

9. Solution combustion synthesis of tungsten carbide/platinum catalysts. China Patent (No. ZL201610248099.6)

10. An in-situ resistance measuring device with high-flux material and chip four-probe. China Patent (No. ZL201721402811.X)