2024

 

59. W. Liu; L.L. Tian; L. Shi*. Unraveling the Molecular Mechanism of H2O2 Production on Au-Pd Nanoalloy Surfaces. Journal of Physical Chemistry C. 2024, Accepted.

 

 

58. M.Y. Mu; W. Liu; W.J. Xi; A.Yu; L. Shi*. Numerical Investigation of Anisotropic Gas Diffusion Layers with Graded Porosity and Wettability in Anion Exchange Membrane Fuel Cells. International Journal of Heat and Mass Transfer. 2024, 226，125493.

57. A. Yu; L. Wei; W.J. Xi; M.Y. Mu; L. Shi*. Unraveling the Rapid Proton Transport Mechanism of Covalent Organic Frameworks. Chemistry of Materials. 2024, 36(4), 1880–1890.

 

56. Y.D. Wang; Z.X. Ying; M.J. Liu; L. Shi*. High-temperature inorganic anion exchange membranes based on layered double hydroxides for anion exchange membrane fuel cell applications . Journal of Membrane Science. 2024, 695, 122453.

 

55. Z. Li; Y.D. Wang; J.A. Xie; Y.H. Cheng; L. Shi*. Hybrid multi-criteria decision-making evaluation of multiple renewable energy systems considering the hysteresis band principle. International Journal of Hydrogen Energy 2024, 49, 450-462.

 

2023

 

54. J.N. Qian#; W. Liu#; Y.T. Jiang; L. Ye; X.B. Wei; S.B. Xi; L. Shi*; L. Zeng*. Defect Engineering of 2D Copper Tin Composite Nanosheets Realizing Promoted Electrosynthesis Performance of Hydrogen Peroxide  Small 2023,  2306485.

53. Y.X. Lv; D.D. M; C. Yang; K.L. Song; L. Shi*; Y.H. Cheng; C.M. Niu; J.W. Shi*. In-situ construction of lead-free halide perovskite CsCu2I3/g-C3N4 heterojunction for photocatalytic H2 generation. Separation and Purification Technology. 2023, 316, 123813.

52. Y.D. Wang; Z.X. Ying; Y.S. Gao; L. Shi*. Layered Double Hydroxide Nanosheets: Synthesis Strategies and Applications in the field of Energy Conversion Chemistry-A European Journal 2023, e202303025.

 

51. Z. X. Huang; Z. X. Ying; R. L. Li; W. L. Sun; H. Zhang; Z. R. Wang; L. Shi*; X. C. Chen*. Sub-two-micron ultrathin proton exchange membrane with reinforced mechanical strength. Polymer. 2023, 272, 125829.

50. Z. Luo; L. L. Tian; H. J. Wang; Z. C. Wu; X. Luo; X.S. Wang; L. Jiao; X.Q. Wei; Y. Qin; L.R. Zheng; L. Y. Hu*; W. L. Gu*; L. Shi*; C.Z. Zhu*. Single-atom nanozymes with axial ligand-induced self-adaptive conformation in alkaline medium boost chemiluminescence. Science China Chemistry 2023, 66, 904–912.

49. Y.H. Liu; M.P. Du; Z. Li; Y.H. Cheng; L. Shi*. Molecular Dynamics Study on Swelling and Exfoliation Properties of Montmorillonite Nanosheets for Application as Proton Exchange Membrane. ACS Applied Nano Materials 2023, 6(3), 2133–2140.

 

2022

 

48. K.M. Wang; A. Yu; Z.Y. Zhou; F. Shen*; M.N. Li; L. Zhang; W.C. Guo; Y.F. Chen; L. Shi*; X.G. Han*. Electrode structure enabling dendrite inhibition for high cycle stability quasi-solid-state lithium metal batteries. Journal of Energy Chemistry 2022, 79, 232-241. 

47. H.M. Duan#; Z.X. Ying#; L.L. Tian; Y.H. Cheng; L. Shi*. Aqueous proton transportation in graphene-based nanochannels. Langmuir. 2022. 38, 49, 15413-15421. 

46. Z. Li; Y.H. Liu; M.P. Du; Y.H. Cheng; L. Shi*. Modeling and multi-objective optimization of a stand-alone photovoltaic-wind turbine-hydrogen-battery hybrid energy system based on hysterisis band. International Journal of Hydrogen Energy. 2022. 48(22), 7959-7974. 

 

45. J.N. Qian#; W. Liu#; Y.T. Jiang; Y.B. Mu; Y.Y. Cai; L. Shi*; L. Zeng*. Enhanced catalytic performance in two-electron oxygen reduction reaction via ZnSnO₃ perovskite. ACS Sustainable Chemistry & Engineering 2022. 10, 43, 14351-14360.

44. L.Y. Hu#; L.L. Tian#; X. Ding#;  X. Wang; X.S. Wang; Y. Qin; W.L. Gu*; L. Shi*; C.Z. Zhu*. p-d Hybridization in CoFe LDH Nanoflowers for Efficient Oxygen Evolution Electrocatalysis. Inorganic Chemistry Frontiers 2022. 9, 5296-5304.  

43. Y.S. Gao; Y.D. Wang; C.X. Chen; J. Zhou; Y.H. Cheng; L. Shi*. Preparation of montmorillonite nanosheets with a high aspect ratio through heating/rehydrating and gas-pushing exfoliation. Langmuir. 2022. 38, 34, 10520-10529.

 

42. X.T. Hu; Y. Gao; B. Zhang; L. Shi*; Q. Li*. Superior cycle performance of Li metal electrode with {110} surface texturing. EcoMat. 2022. e12264.

41. L. Shi*; Y.S. Gao; Z.X. Ying; A. Xu; Y.H. Cheng. Charge-induced proton penetration across two-dimensional clay materials. Nanoscale. 2022.14, 6518-6525. 

 

40. L.L. Tian; J. Wu; Y.S. Gao; Y.H. Cheng; L. Shi*. Two-dimensional aromatic polymer as a promising anchoring material for lithium-sulfur batteries. Applied Surface Science 2022. 571, 151226.

2021

 

39. J. Wu; L.L. Tian; H.M. Duan; Y.H. Cheng; L. Shi*. Unveiling the working mechanism of g-C₃N₄ as a protection layer for lithium and sodium metal anode. ACS Applied Materials & Interfaces. 2021. 13, 39, 46821-46829.

 

38. Y.D. Pan; J.S. Zhang; Z.L. Zhao; L. Shi; B.K. Wu; L. Zeng*. Iron-doped metal-organic framework with enhanced oxygen evolution reaction activity for overall water splitting. International Journal of Hydrogen Energy. 2021. 46, 34565-34573.

37. L. L. Tian; H. M. Duan; J. M. Luo; Y. H. Cheng; L. Shi*. Density Functional Theory and Molecular Dynamics Simulations of Nanoporous Grapheen Membranes for Hydrogen Separation. ACS Applied Nano Materials 2021. 4, 9, 9440-9448.

 

36. Y. X.  Lv; L. Shi; J. W. Shi*; Y. J. Zhang; D. D. Ma; Y. H. Cheng. In-doped LiCa_2.98MgV₃O₁₂ rare-earth-free phosphor with a high photoluminescence quantum yield of 67.4%. Journal of American Ceramic Society 2021, 00, 1-11. 

35. Z. X. Ying; Y. S. Gao; Y. P. Meng; Y. H. Cheng; L. Shi*. Influence of stacking towards the aqueous proton penetration behavior across two-dimensional graphtetrayne. Nanoscale 2021,13, 5757-5764

 

34. L. Shi*; Z. X. Ying; A. Xu; Y. H. Cheng. Unraveling the hydroxide ion transportation mechanism along the surface of two-dimensional layered double hydroxide nanosheets. Journal of Physical Chemistry C 2021,125, 1240–1248.

33. Y. X. Lv; Y. J. Zhang; L. Shi; J. W. Shi*; J. Li; Z. H. Li; X. Ji; D. D. Ma; Y. H. Cheng; C. M. Niu. Role of oxygen vacancy in rare-earth-free LiCa₃Mg(VO₄)₃ phosphor: Enhancing photoluminescence by heat-treatment in oxygen flow. Journal of Materials Science & Technology 2021, 79, 123-132.

 

2020

 

32. A. Xu*; S. Tao, L. Shi, H. D. Xi. Transport and deposition of dilute microparticles in turbulent thermal convection. Physics of Fluids 2020, 32(8), 083301.

31. L. Shi*; Z.X. Ying; A.Xu; Y.H. Cheng. Unraveling the water-mediated proton conduction mechanism along the surface of graphene oxide. Chemistry of Materials 2020, 32, 6062-6069.

 

Highlights: 西安交通大学新闻网

                        X-MOL科学知识平台

30. L.Y. Hu^#; X. Zeng^#; X.Q. Wei; H.J. Wang; Y. Wu; W.L. Gu*; L. Shi*; C.Z. Zhu*. Interface engineering  for enhancing electrocatalytic oxygen evolution of NiFe LDH/NiTe Heterostructures. Applied Catalysis B 2020, 273, 119014. (ESI Highly Cited Paper)

29. F. Shen^#; K. Wang^#; Y. Yin; L. Shi; D. Zeng; X. Han*. PAN/PI functional double-layer coating for dendrite-free lithium metal anode. Journal of Materials Chemistry A 2020, 8, 6183-6189.

28. L. Shi*; Z.X. Ying; A. Xu; Y.H. Cheng. Anomalous proton conduction behavior across nanoporous two-dimensional conjugated aromatic polymer membrane. Physical Chemistry Chemical Physics 2020, 22, 2978-2985.

 

2019

 

27. A. Xu; L. Shi; H.D. Xi*. Statistics of temperature and thermal energy dissipation rate in low-Prandtl number turbulent thermal convection. Physics of Fluids 2019, 31(12), 12501.

26. L. Shi*; A. Xu; Y.H. Cheng. Ether-group-mediated aqueous proton selective transfer across graphene-embeded 18-crown-6 ether pores. Journal of Physical Chemistry C 2019, 123, 27429-27435.

25. A. Xu*; L. Shi; H.D. Xi.  Lattice Boltzmann simulations of three-dimensional thermal convective flows at hgih Rayleigh number. International Journal of Heat and Mass Transfer 2019, 140, 359-370.

24. L. Shi; A. Xu; D. Pan; T.S. Zhao*. Aqueous proton-selective conduction across two-dimensional graphyne. Nature Communications 2019, 10, 1165.

Highlights: 国家自然科学基金委员会

                        中国科学报

                        中国日报

23.A. Xu; L. Shi; L. Zeng; T.S. Zhao^*. First-principle investigations of nitrogen-, boron-, phosphorus-doped graphite electrodes for vanadium redox flow batteries. Electrochimica Acta 2019, 300, 389-395. 

 

2018

 

22. L. Shi; A. Xu; T.S. Zhao*. Three-dimensional carbon-honeycomb as nano-porous lithium and sodium deposition scafflold. Journal of Physical Chemistry C 2018, 122(37), 21262-21268.

21. A. Xu; T.S. Zhao*; L. Shi; J.B. Xu. Lattice Boltzmann simulation of mass transfer coefficients for chemically reactive flows in porous media. Journal of Heat Transfer-Transactions of The ASME 2018, 140(5), 052601.

20. A. Xu; L. Shi; T.S. Zhao*. Lattice Boltzmann simulation of shear viscosity of suspensions contaning porous particles. International Journal of Heat and Mass Transfer 2018, 166, 969-976.

19. A. Xu; L. Shi; T.S. Zhao*. Thermal effects on the sedimentation behavior of elliptical particles. International Journal of Heat and Mass Transfer 2018, 126, 753-764.

18. G. Zhao#; L. Shi#; J.B. Xu; X.H. Yan; T.S. Zhao*. Role of phosphorus in nitrogen, phosphorus dual-doped ordered mesoporous carbon electrocatalyst for oxygen reduction reaction in alkaline media. International Journal of Hydrogen Energy 2018, 43(3), 1470-1478. (# Co-first author)

 

2017

 

17. X.H. Yan; P. Gao; G. Zhao; L. Shi; J.B. Xu; T.S. Zhao*. Transport of highly concentrated fuel in direct methanol fuel cells. Applied Thermal Engineering 2017, 126, 290-295.

16. P. Tan; H.R. Jiang; X.B. Zhu; L. An; C.Y. Jung; M.C. Wu; L. Shi; W. Shyy; T.S. Zhao*. Advances and challenges in lithium-air batteries. Applied Energy 2017, 204, 780-806.

15. L. Shi; A. Xu; G.H. Chen; T.S. Zhao*. Theoretical understanding of mechanism of proton exchange membranes made of 2D crystals with ultrahigh selectivity. Journal of Physical Chemistry Letter 2017, 8(18), 4354-4361.

14. A. Xu; L. Shi; T.S. Zhao*. Accelerated lattice Boltzmann simulation using GPU and OpenACC with data management. International Journal of Heat and Mass Transfer 2017, 109, 577-588.

13. L. Shi; T.S. Zhao*. Recent advances in inorganic 2D materials and their applications in lithium and sodium batteries. Journal of Materials Chemistry A 2017, 5(8), 3735-3758. (ESI Highly Cited Paper)

12. L. Shi; A. Xu; T.S. Zhao*. First-principle investigations of the working mechanism of 2D h-BN as an interfacial layer for the anode of lithium metal batteries. ACS Applied Materials & Interfaces 2017, 9(2), 1987-1994.

 

2016

 

11. A. Xu; T.S. Zhao*; L. Shi; X.H. Yan. Three-dimensional lattice Boltzmann simulation of suspensions containing both micro- and nanoparticles. International Journal of Heat and Fluid Flow 2016, 63, 560-567. 

10. L. Shi; T.S. Zhao*; A. Xu; Z.H. Wei. Unraveling the catalytic mechanism of rutile RuO₂ for the oxygen reduction reaction and oxygen evolution reaction in Li-O₂ batteries. ACS Catalysis 2016, 6(9), 6285-6293.

9. X.H. Yan; T.S. Zhao*; L. An; G. Zhao; L. Shi. A direct methanol-hydrogen peroxide fuel cell with a Prussian Blue cathode. International Journal of Hydrogen. Energy 2016, 41(9), 5135-5140.

8. P. Tan#; L. Shi#; W. Shyy; T.S. Zhao*. Morphology of the discharge product in non-aqueous lithium-oxygen batteries: furrowed toroid particles correspond to a lower charge voltage. Energy Technology 2016, 4(3), 393-400. (Co-first author)

7. H.R. Jiang; T.S. Zhao*; L. Shi; P. Tan; L. An. First-principles study of nitrogen-, boron-doped graphene and co-doped graphene as the potential catalyst in nonaqueous Li-O₂ batteries. Journal of Physical Chemistry C 2016, 120(12), 6612-6618.

6. L. Shi; A. Xu; T.S. Zhao*. RuO₂ monolayer: A promising bifunctional catalytic material for the nonaqueous lithium-oxygen batteries. Journal of Physical Chemistry C 2016, 120(12), 6356-6362.

5. L. Shi; T.S. Zhao*; A. Xu; J.B. Xu. Ab initio prediction of a silicene and graphene heterostructure as an anode materail for Li- and Na-ion batteries. Journal of Materials Chemistry A 2016, 4(42), 16377-16382.

4. L. Shi; T.S. Zhao*; A. Xu; J.B. Xu. Ab initio prediction of borophene as an extraodinary anode material exhibiting ultrafast directional sodium diffusion for sodium-based batteries. Science Bulletin 2016, 61(14), 1138-1144. (Cover Page) Highlighted by EurekAlert!

 

 2015

 

3. A. Xu; T.S. Zhao*; L. An; L. Shi. A three-dimensional pseudo-potential-based lattice Boltzmann model for multiphase flows with large density ratio and variable surface tension. International Journal of Heat and Fluid Flow 2015, 56, 261-271.

2. L. Shi; A. Xu; T.S. Zhao*. Formation of Li₃O₄ nano particles in the discharge products of non-aqueous lithium-oxygen batteries leads to lower charge overvoltage. Physical Chemistry Chemical Physics 2015, 17(44), 29859-29866.

1. L. Shi; T.S. Zhao*. Why the charge overpotential in non-aqueous Li-O₂ batteries is so high and exhibits different rising trends?. Science bulletin 2015, 60(2), 281-282.

 

 

 

发明专利

 

1. 史乐，高宇栓，王银栋，成永红. 一种二维蒙脱土大尺径纳米片剥离方法. ZL202210847673.5. 2023-12-19.