发表文章
2026
77. Z. Zhang#; Z. Qiao#; D. Yang; L. Shi*. Deciphering the Role of Sulfonated Side-Chain Length in Modulatin Proton Transport in TpBd-COFs.Journal of Materials Chemistry A. 2026, Accpeted.
76. K. Wang; F. Fu; Z. Zhou; Z. Chen; Y. Gao; H. Du; L. Shi; K. Wu; Y. Yamauchi; J. Zhou. Reverse Built-in Electric Field for Efficient Oxygen Evolution Reaction.Advanced Functional Materials. 2026, e75516.
75. Z.T. Xie#; X.R. Liu#; X. Ao; L. Zhang*; L. Shi*. Sulfonated poly (arylene ether ketone) with pendant phenyl groups as membranes and ionomers for proton exchange membrane fuel cells (PEMFCs). Chemical Engineering Journal. 2026, 537, 176424.
74. S.W. Xu; W. Liu; X. Zhu; Z.Z. Hong; L.S. Qian; C. Cheng; K. Chen; L. Zhang; C.S. Ma; M.T. Liu; L. Shi*; Y. Xiao*; S. -X, Dou; Y.H. Cheng; P. -F. Wang*. Potential-dependent interfacial specific adsorption accelerates charge transfer in sodium-ion batteries. Nature Communications. 2026, 17, 2868.
2025
73. Y.K. Liu; D. Yang; X. Zhou; Z.T. Xie; X. Ao; L. Shi*. Machine Learning Guided Design of Sulfonated Poly (arylene ether)s for Proton Exchagne Membranes. Chemical Engineering Journal. 2025, 524, 168941
72. J. Qian; D. Yan; Y. Jiang; W. Li; X. Hou; L. Shi*; L. Zeng*. Dual-engineering of sulfur, oxygen co-doping and defective carbon structure boosts highly efficient hydrogen peroxide electrosynthesis. Journal of Colloid and Interface Science. 2025, 700, 138621.
71. W.J. Xi#; W. Liu#; X. Ao*; L. Shi*. N-Coordinated Fe-Co Catalytic Sites with Interatomic Cooperation for Proton Exchange Membrane Fuel Cells. Journal of Materials Chemistry A. 2025, 13, 28400-28408.
70. Z.X. Ying; Y.D. Wang; K.J. Feng; M.J. Liu; L. Shi*. Breaking the Conductivity-Selectivity Trade-Off in Direct Methanol Fuel Cells using Oxygen Plasma-Treated Monolayer Graphene. Journal of Power Sources. 2025, 654,237800
69. Y. D. Wang; W. Liu; S. Shang; M.J. Liu; Z.X. Ying; X. Ao; L. Shi*. An LDH-Enhanced Porous Polyethersulfone Membrane Doped with Alkali for Anion Exchange Membrane Fuel Cells. Materials Horizons. 2025. 12, 7570-7579 (Invited)
68. M.Y. Li; D.D. Ma; X.B. Feng*; C.Q. Zhi; Y.F. Jia; J.F. Zhang; Y. Zhang; Y. Chen; L. Shi*; J.W. Shi*. Design and Modification of Layered Double Hydroxides‐Based Compounds in Electrocatalytic Water Splitting: a Review. Small 2025, 2412576.
67. Y.S. Gao; Z.L. Qiao; L. Zhang; L. Shi*. High-Performance Proton Exchange Membrane with Vertically Aligned Montmorillonite Nanochannels. Small. 2025, 2409192.
66. W. Liu; S.S Ye; L. Shi* Mechanistic understanding of pH-dependent oxygen reduction reaction on Fe-N-C surface: linking surface charge to adsorbed oxygen-containing species. ACS Appl. Mater. Interfaces 2025, 17, 3, 4895-4903
65. X. Zhou; J.Y. Zhang; K.J. Feng; Z.L. Qiao; Y.D. Wang; L. Shi* Machine learning-assisted design of flow fields for proton exchange membrane fuel cells. J. Power Sources 2025, 626, 235753
2024
64. Z.X. Ying; Y.D. Wang; W.J. Xi; K.J. Feng; L. Shi*. Evaluation and optimization of polycarbonate track-etched (PCTE) membranes for direct methanol fuel cells. Phys. Chem. Chem. Phys. 2024, 26, 29384-29392
63. Z.L. Qiao; Z.X. Ying; X.Zhou; K.J. Feng; L. Shi*. Hydrogen Bond Network Shaping Proton Penetration Behavior Across Two-Dimensional Nanoporous Materials. ACS Appl. Mater. Interfaces 2024. 16, 40, 54445–54455
62. Q. Fang; L.J. Wang; D. Yang; L. Xue; W.L. Gu; L.Y. Hu*; L. Shi*; C.Z. Zhu*. Ga-induced p-d Orbital Hybridization in CoFe LDH for Boosted Oxygen Evolution Electrocatalysis. ACS Mater. Lett. 2024. 6, 3963-3969.
61. Q. Fang; S.S. Ye; L.R. Zheng; H.J. Wang; L.Y. Hu; W.L. Gu; L.J. Wang; L. Shi*; C.Z. Zhu*. CuNi Aerogels with Suppressed Water Activation for Efficient Nucleophilic Methanol Electrooxidation. ACS Catalysis. 2024. 14, 9235–9243
60. W.J. Xi; W. Liu; A. Yu; M.Y. Mu; W.L. Gu*; L. Shi*. Core-Shell Co-NC@NC nanomaterial for efficient oxygen reduction reaction. International Journal of Hydrogen Energy 2024, 72, 141-148.
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, 128, 16, 6682–6688.
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. (Invited)
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 LiCa2.98MgV3O12 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
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
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.
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.
2. 史乐,周熙,张晋源,冯科婕,木明英,谢兆添,乔梓林,叶殊杉. 一种燃料电池流场性能预测方法及系统. 202410746970X. 2024.06.11.(申请中,实质审查)
3. 史乐,高宇栓,成永红. 一种基于聚多巴胺部分包覆蒙脱土的高质子传导性能膜及其制备方法. ZL202410839315.9. 2025-09.02.
4. 史乐,高宇栓,成永红. 一种基于垂直排列聚多巴胺插层蒙脱土纳米片的质子交换膜及其制备方法. ZL202410839317.8. 2025-09-02.
5. 史乐,王银栋,应之璇. 一种多孔聚醚砜/层状双氢氧化物纳米片复合阴离子交换膜及其制备方法和应用. 202411494597X. 2024.10.24(申请中)
6. 史乐,应之璇,王银栋,冯科婕,刘美娟. 一种基于大面积单层纳米多孔石墨烯Nafion复合的质子交换膜及其制备方法. 2024115114013. 2024. 10.28(申请中)
7. 史乐,刘未,敖翔,成永红. 一种氢钝化碳边缘的铁单原子催化剂、制备方法及应用. 202511966038.9. 2025.12.24(申请中)
8. 史乐,尚书,王银栋,敖翔,成永红. 一种交联高聚物复合公家有机框架膜及制备方法和应用. 2026105873505. 2026. 04. 29(申请中)
学术报告
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2. 2st International Conference on Energy Storage and Saving (ICENSS 2023), 2023.11.23~2023.11.27, Xi'an, China, Keynote Speech
1. 2023能源创新青年论坛,2023.11.10~2023.11.11,中国成都,邀请报告