研究方向

生物过程中的凝聚态物理问题

自驱动生物传感芯片，自驱动电子皮肤，自驱动医疗检测系统

主要授课

《半导体物理》、《X射线晶体学》

教学科研

主持和参与国家自然科学基金3项，主持和参与省部级项目6项。

论文著作

1. L. L. Xing, D. P. Li, S. X. Hu, H. Y. Jing, H. L. Fu, Z. H. Mai, M.Li, “Electrochemical growth of highly oriented organic-inorganic superlatticesusing solid-supported multilamellar membranes as templates”, Journalof the American Chemical Society 2006, 128, 1749-1754. (SCI收录，影响因子:13.858).

2. B. Yuan, L. L. Xing, Y. D. Zhang, Y. Lu,Y. Y. Luo, Z. H. Mai, M. Li, “Penetration and saturation of lysozyme inphospholipid bilayers”, Journal of Physical Chemistry B 2007, 111, 6151-6155. (SCI收录，影响因子:3.177).

3. B. Yuan, L. L. Xing, Y. D. Zhang, Y. Lu,Z. H. Mai, M. Li, “Self-assembly of highly oriented lamellarnanoparticle-phospholipid nanocomposites on solid surfaces”, Journalof the American Chemical Society 2007, 129, 11332-11333. (SCI收录，影响因子:13.858).

4. L. L. Xing, B. Yuan, S. X. Hu, Y. D. Zhang, Y. Lu, Z. H. Mai, M.Li, “Electrochemical synthesis of highly oriented layered zinc hydroxide withintercalated p-aminobenzoic acid”, Journal of Physical Chemistry C 2008, 112, 3800-3804. (SCI收录，影响因子:4.536).

5. X. Y. Xue, L. L. Xing, Y. J. Chen, S. L. Shi, Y. G. Wang and T. H.Wang, “Synthesis and H₂S sensing properties of CuO-SnO₂ PN junction nanorods”, Journal of Physical Chemistry C 2008,112, 12157-12160. (SCI收录，影响因子:4.536).

6. X. Y. Xue, L. L. Xing, Y. G. Wang, and T. H. Wang, “ Preparation,characterization and electrical transport properties of individual α-MnO₂ and β-MnO₂nanorods ”, Solid State Sciences 2009,11, 2106-2110. (SCI收录，影响因子:1.811).

7. L. L. Xing*通讯作者, and X. Y.Xue, “Electrochemistry-assisted self-assembly of oriented zinc oxide andlong-chain alkyl amine surfactant multilamellar nanostructures”, SolidState Sciences 2010, 12, 1593-1598. (SCI收录，影响因子:1.811).

8. X. Y. Xue, Z. H. Chen, Y. J.Chen, C. H. Ma, L. L. Xing,Y. G. Wang, and T. H. Wang, “Abnormal gas sensing characteristics arising fromcatalyzed morphological changes of ionsorbed oxygen”, Nanotechnology 2010, 21,065501. (SCI收录，影响因子:3.44).

9. X. Y. Xue, Z. H. Chen, L. L. Xing, C. H. Ma, Y. J.Chen, and T. H. Wang,“ Enhanced Optical and Sensing Properties of One-StepSynthesized Pt-ZnONanoflowers”, Journal of Physical Chemistry C2010,114, 18607-18611. (SCI收录，影响因子:4.536).

10. X. Y. Xue, Z. H. Chen, C. H. Ma, L. L. Xing, Y. J. Chen, Y. G. Wang, and T. H. Wang,“One-step Synthesis and Gas Sensing Characteristics of Uniformly-loaded Pt@SnO₂Nanorods”, Journalof Physical Chemistry C 2010, 114, 3968-3972. (SCI收录，影响因子:4.536).

11. X. Y. Xue, C. H. Ma, C. X. Cui, and L. L. Xing, “High lithiumstorage performance of α-Fe₂O₃/graphene nanocomposites aslithium-ion battery anodes”, Solid State Sciences 2011,13, 1526-1530. (SCI收录，影响因子:1.811).

12. L. L. Xing, C. X. Cui, C. H. Ma, and X. Y. Xue, “Facile synthesis of α-MnO₂/graphenenanocomposites and their high performance as lithium-ion battery anode”, MaterialsLetters 2011, 65, 2104-2106. (SCI收录，影响因子:2.572).

13. L. L. Xing, C. H. Ma, Z. H. Chen, and X. Y. Xue, “Temperature-dependent linear or nonlinear gas sensingcharacteristics of In₂O₃ mixed α-Fe₂O₃nanorodswith high sensitivity”, Applied Surface Science 2011, 257,8576-8580. (SCI收录，影响因子:3.387).

14. L. L. Xing, S. Yuan, Z. H. Chen, Y. J. Chen, and X. Y. Xue, “Enhanced gas sensingperformance of SnO₂/α-MoO₃heterostructurenanobelts”, Nanotechnology 2011,22, 225502. (SCI收录，影响因子:3.44).

15. L. L. Xing, C. H. Ma, Z. H. Chen, Y. J. Chen, and X. Y. Xue, “High gas sensingperformance of one-step synthesized Pd-ZnOnanoflowers due to surface reactionsand modifications”, Nanotechnology 2011, 22, 215501. (SCI收录，影响因子:3.44).

16. X. Y. Xue, B. He, S. Yuan, L.L. Xing, Z. H. Chen and C. H. Ma, “SnO₂/WO₃ core–shell nanorods and their high reversible capacity as lithium-ion batteryanodes”, Nanotechnology 2011, 22, 395702. (SCI收录，影响因子:3.44).

17. X. Y. Xue, Z. H. Chen, L.L. Xing, Shuang Yuan, and Y. J. Chen, “SnO₂/α-MoO₃ core-shell nanobelts and their extraordinarily high reversible capacity aslithium-ion battery anodes”, Chemical Communications 2011,47, 5205-5207. (SCI收录，影响因子:6.319).

18. X. Y. Xue, S. Yuan, L.L. Xing, Z. H. Chen, Bin He, and Y. J. Chen, “Porous Co₃O₄nanoneedlearrays growing directly on copper foils and their ultrafastcharging/discharging as lithium-ion battery anodes”, Chemical Communications 2011,47, 4718-4720. (SCI收录，影响因子:6.319).

19. L. L. Xing, C. H. Ma, C. X. Cui and X. Y. Xue, “Structural and electrochemical properties of SnO₂/nanocarbonfamilies as lithium-ion battery anodes”, Solid State Sciences 2012,14, 111-116. (SCI收录，影响因子:1.811).

20. L. L. Xing, C. X. Cui, B. He, Y X. Nie, P. Deng,X. Y. Xue,“SnO₂/NiOcore-shellnanobeltsandtheirhighreversiblelithiumstoragecapacityarisingfromsynergisticeffect”, Materials Letters 2013, 96, 158-161.(SCI收录，影响因子:2.572).

21. L. L. Xing, B. He, Z. H. Chen,X. Y. Xue, "Schottky barrier andcatalytic effect induced high gas sensing of one-step synthesized Pd-SnO₂nanorods", Solid State Sciences 2013, 15, 42-46. (SCI收录，影响因子:1.811).

22. L. L. Xing, B. He,Y. X. Nie, P. Deng, C. X. Cui, X. Y. Xue, “SnO₂–MnO₂–SnO₂ sandwich-structured nanotubesas high-performanceanodesoflithiumionbattery”, Materials Letters 2013, 105,169-172. (SCI收录，影响因子:2.572).

23. Q. Wang,C. Y. Zhang, X. B. Xia, L. L. Xing, X. Y. Xue, “Extremelyhigh capacity and stability of Co₃O_4/graphenenanocomposites as the anode of lithium-ion battery”, Materials Letters 2013,112, 162-164. (SCI收录，影响因子：2.572)

24. L. L. Xing, C. X.Cui, P. Deng, Y. X. Nie, Y. Y. Zhao, B. He, X. Y. Xue, “Template-free assemblyof α-Fe₂O₃/SnO₂ core-shell nanorod arrays on titanium foils and their excellent lithium storageperformance”, RSC Advances 2013, 3, 10379-10384.(SCI收录，影响因子：3.108).

25. L. L. Xing, S.Yuan, B. He, Y. Y. Zhao, X. L. Wu, X. Y. Xue, “Synergistic effect of SnO₂/ZnWO₄ core-shell nanorods with high reversible lithium storage capacity”, Chemistry-anAsian Journal 2013, 8, 1530-1535. (SCI收录，影响因子:4.083).

26. Q. Wang, Z. H. Chen, L. L. Xing*通讯作者, “Monocrystalline silicon nanowires and nanosheetsas anodes of lithium-ion battery:synthesis in mass production and low cost”, Micro & Nano Letters 2013, 8,336-339. (SCI收录，影响因子：0.723).

27. X. Y.Xue, P. Deng, S. Yuan, Y. X. Nie, B. He, L. L. Xing and Y. Zhang, “CuO/PVDF nanocomposite anode for a piezo-driven self-charging lithiumbattery”, Energy & EnvironmentalScience 2013,6, 2615-2620.(SCI收录，影响因子：29.518).

28. L. L. Xing, Y. Y.Zhao, J. Zhao, Y. X. Nie, P. Deng, Q. Wang, X. Y. Xue, “Facile synthesis and lithiumstorage performance of SnO₂-Co₃O₄ core-shellnanoneedle arrays on copper foil”, Journal of Alloys and Compounds 2014, 586, 28-33. (SCI收录，影响因子：3.133)

29. Q. Wang, C. Y. Zhang, W. F. Shan, L. L. Xing,X.Y. Xue, “Uniformly loading NiOnanowalls on graphene and their extremely highcapacity and cyclability as anodes of lithium-ion batteries”, Materials Letters 2014, 118, 66-68. (SCI收录，影响因子：2.572)

30. Q. Wang, J. Zhao, W. F. Shan, X. B. Xia, L. L.Xing, X. Y. Xue, “CuOnanorods/graphene nanocomposites forhigh-performance lithium-ion battery anodes”, Journalof Alloys and Compounds 2014, 590, 424-427.(SCI收录，影响因子：3.133)

31. L. L.Xing, Z. H. Chen, X.Y. Xue, “Controllable synthesis Co₃O₄nanorods andnanobelts and their excellent lithium storage performance”, Solid State Sciences 2014, 32,88-93. (SCI收录，影响因子:1.811)

32. Q. Wang, B. He, L. L. Xing, X. Y. Xue,“SnS₂-graphene nanocomposites as anodes of lithium-ion batteries”, Solid State Sciences 2014, 31,81-84. (SCI收录，影响因子:1.811)

33. D. A. Zhang, Q. Wang, Q. Wang, J. Sun, L. L.Xing, X. Y. Xue, “Core–shell SnO2@TiO2–B nanowires as the anode oflithium ion battery with high capacity and rate capability”, Materials Letters 2014, 128,295-298. (SCI收录，影响因子:2.572)

34. D. Zhu, Y. M. Fu, W. L. Zang, Y. Y. Zhao, L.L. Xing*通讯作者, X. Y. Xue, “Piezo/active humiditysensing of CeO₂/ZnO and SnO₂/ZnOnanoarraynanogeneratorswith high response and large detecting range”Sensors and Actuators B:Chemical 2014, 205, 12-19. (SCI收录，影响因子：5.401)

35. W. L. Zang, W. Wang, D. Zhu, L. L. Xing*通讯作者, X. Y. Xue, “Humidity-dependentpiezoelectric output of Al–ZnO nanowire nanogenerator and its applicationsas aself-powered active humidity sensor”,RSCAdvances2014, 4, 56211-56215. (SCI收录，影响因子：3.108).

36. Y. X. Nie, P. Deng, Y. Y. Zhao, P. L. Wang, L.L. Xing, Y. Zhang, X. Y. Xue, “The conversion of PN-junctionsinfluencing the piezoelectric output of CuO/ZnOnanoarraynanogenerator and itsapplication as a room-temperature self-powered active H₂S sensor”, Nanotechnology 2014, 25, 265501. (SCI收录，影响因子:3.44)

37. Y. Y. Zhao, X. Lai, P. Deng, Y. N. Nie, Y. Zhang, L.L. Xing*通讯作者, X. Y. Xue, “Pt/ZnOnanoarraynanogenerator asself-powered active gas sensor and the linear ethanol sensing at roomtemperature”, Nanotechnology 2014, 25, 115502. (SCI收录，影响因子:3.44)

38. J. Zhao, W. F. Shan, X. B. Xia, Q. Wang, L. L.Xing*通讯作者, “SnO2-CuO/graphene nanocomposites for highperformance Li-ionbattery anodes”, ScienceChina-Technological Sciences 2014, 57, 1081-1084. (SCI收录，影响因子:1.719)

39. P. L. Wang, P. Deng, Y. X. Nie, Y. Y. Zhao, Y.Zhang,L. L. Xing*通讯作者, X. Y. Xue, “Synthesisof CdSnanorod arrays and their applications in flexible piezo-driven active H₂Ssensor”, Nanotechnology 2014,25, 075501. (SCI收录，影响因子:3.44)

40. Q. Wang, Q. Wang, D. A. Zhang, J. Sun, L. L.Xing*通讯作者, X. Y. Xue, “Core-shell α-Fe₂O₃@α-MoO₃nanorodsas lithium-ion battery anodes with extremely high capacity and cyclability”, Chemistry-an Asian Journal2014,9, 3299-3306. (SCI收录，影响因子:4.083)

41. L. L. Xing, Y. F.Hu, P. L. Wang, Y. Y. Zhao, Y. X. Nie, P. Deng, X. Y. Xue, “Realizing room-temperature self-poweredethanol sensing of Au/ZnO nanowire arraysby coupling the piezotronics effect ofZnO and the catalysis of noble metal”, Applied Physics Letters 2014, 104, 013109. (SCI收录，影响因子：3.411)

42. L. L. Xing, P.Deng, B. He, Y. X. Nie, X. L. Wu, S. Yuan, C. X. Cui, X. Y. Xue, “Assembly ofFeWO₄-SnO₂core-shell nanorods and their highreversiblecapacity as lithium-ion battery anodes”, ElectrochimicaActa 2014, 118, 45-50.(SCI收录，影响因子：4.798)

43. Q. Wang, D. A. Zhang, Q. Wang, J. Sun, L.L. Xing*通讯作者, X. Y. Xue, “High electrochemical performances of α-MoO₃@MnO₂ core-shellnanorods as lithium-ion battery anodes”, ElectrochimicaActa 2014, 146, 411-418. (SCI收录，影响因子：4.798)

44. W. L. Zang, D. Zhu, Y. X. Nie, P. Deng, L. L.Xing*通讯作者, X. Y. Xue, “Core-shell In₂O₃/ZnOnanoarraynanogeneratoras a self-powered active gas sensor with high H₂S sensitivity andselectivity at room temperature”, Journalof Physical Chemistry C 2014, 118, 9209-9216. (SCI收录，影响因子:4.536)

45. Y. Y. Zhao, P. Deng, Y. X.Nie, P. L. Wang, Y. Zhang, L. L. Xing*通讯作者, X. Y. Xue, “Biomolecule-adsorption-dependentpiezoelectric output of ZnO nanowire nanogenerator and its application asself-powered active biosensor”, Biosensors& Bioelectronics 2014, 57, 269-275. (SCI收录，影响因子:7.78)

46. Y. J. Lin, Ping Deng, Y. X. Nie, Y. F. Hu, L.L. Xing, Y. Zhang, X. Y. Xue, “Room-temperature self-powered ethanolsensing of Pd/ZnOnanoarraynanogenerator driven by human finger movement”, Nanoscale 2014, 6, 4604-4610. (SCI收录，影响因子:7.367)

47. L. L.Xing,Y. X. Nie,X. Y.Xue, Y. Zhang, “PVDF mesoporous nanostructures as the piezo-separator for apiezoelectric self-charging power cell”, Nano Energy 2014, 10, 44-52. (SCI收录，影响因子:12.343)

48. Y. M. Fu, W. L. Zang, P. L. Wang, L. L. Xing,X. Y. Xue, Y. Zhang, “Portable room-temperature self-powered/active H2 sensordriven by human motion through piezoelectric screening effect”, Nano Energy 2014, 8, 34-43. (SCI收录，影响因子:12.343)

49. X. Y. Xue, P. Deng, B. He, Y. X. Nie, L. L.Xing, Y. Zhang, Z. L. Wang*, “Flexible self-charging power cell forone-step energy conversion and storage”, Advanced Energy Materials 2014, 1301329. (SCI收录，影响因子:16.721)

50. Y. M. Fu, Y. Y. Zhao, P. L. Wang, L. L. Xing*通讯作者and X. Y. Xue, “High response and selectivity of aCu–ZnOnanowire nanogenerator as a self-powered/active H₂S sensor”, Physical chemistry chemical physics 2015, 17, 2121-2126. (SCI收录，影响因子:4.123)

51. P. L. Wang, Y. M. Fu, B. W. Yu, Y. Y. Zhao, L.L. Xing*通讯作者and X. Y. Xue, “Realizing room-temperatureself-powered ethanol sensing of ZnO nanowire arrays by combining theirpiezoelectric, photoelectric and gas sensing characteristics”Journal of Materials Chemistry A 2015, 3, 3529-3535. (SCI收录，影响因子:8.867)

52. Y. Y. Zhao, Y. M. Fu, P. L. Wang, L. L. Xing*通讯作者and X. Y. Xue, “Highly stablepiezo-immunoglobulin-biosensing of SiO₂/ZnOnanogenerator asself-powered/active biosensor arising from the field effect influencedpiezoelectric screening effect”, Nanoscale 2015, 7, 1904-1911. (SCI收录，影响因子:7.367)

53. Q. Wang, J. Sun, Q. Wang, D. A. Zhang, L. L.Xing*通讯作者, X. Y. Xue*, “Electrochemical performance of α-MoO3-In2O3 core-shell nanorods as materials forlithium-ion batteries”, Journal ofMaterials Chemistry A 2015, 3, 5083-5091. (SCI收录，影响因子:8.867)

54. X. Y. Xue, W. L. Zang, P. Deng, Q. Wang, L. L.Xing, Y. Zhang, Z. L. Wang, “Piezo-potential enhanced photocatalyticdegradation of organic dye using ZnO nanowires”, Nano Energy 2015, 13, 414-422. (SCI收录，影响因子:12.343)

55. B. W. Yu, Y. M. Fu, P. L. Wang, Y. Y. Zhao, L.L. Xing*通讯作者, X. Y. Xue, “Enhanced piezo-humidity sensing of aCd-ZnO nanowire nanogenerator as a self-powered/active gas sensor by couplingthe piezoelectric screening effect and dopant displacement mechanism”, Physical Chemistry Chemical Physics 2015, 17, 10856-10860. (SCI收录，影响因子:4.123)

56. D. Zhu, T. X. Hu, Y. Y. Zhao, W. L. Zang, L.L. Xing*通讯作者, X. Y. Xue, “High-performance self-powered/activehumidity sensing of Fe-doped ZnOnanoarraynanogenerator”, Sensors and Actuators B: Chemical 2015, 213, 382-389.(SCI收录，影响因子：5.401)

57. Y. M. Fu, Y. X. Nie, Y. Y. Zhao, P. L. Wang, L.L. Xing, Y. Zhang, X. Y. Xue, “Detecting Liquefied Petroleum Gas (LPG)at Room Temperature Using ZnSnO3/ZnO Nanowire Piezo-Nanogenerator asSelf-Powered Gas Sensor”, ACS AppliedMaterials & Interfaces 2015, 7, 10482-10490. (SCI收录，影响因子：7.504)

58. D. A. Zhang, Q. Wang, Q. Wang, J. Sun, L. L.Xing, X. Y. Xue, “High capacity and cyclability of hierarchicalMoS2/SnO2 nanocomposites as the cathode of lithium-sulfur battery”, ElectrochimicaActa 2015, 173,476-482. (SCI收录，影响因子：4.798)

59. Y. X. Zhu, Q. F. Li, P. L. Wang, W. L. Zang, L.L. Xing, X. Y. Xue, “Enhanced piezo-humidity sensing of Sb-doped ZnOnanowire arrays as self-powered/active humidity sensor”, Materials Letters 2015, 154, 77-80.(SCI收录，影响因子：2.572)

60. Z. Qu, Y. M. Fu, B. W. Yu, P. Deng, L. L. Xing,X. Y. Xue, “High and fast H2S response of NiO/ZnO nanowire nanogenerator as aself-powered gas sensor”, Sensors andActuators B: Chemical 2016, 222, 78-86. (SCI收录，影响因子：5.401)

61. T. M. Zhao, Y. M. Fu, Y. Y. Zhao, L. L. Xing,X. Y. Xue, “Ga-doped ZnO nanowire nanogenerator as self-powered/active humiditysensor with high sensitivity and fast response”,Journal of Alloys and Compounds 2015, 648, 571-576.(SCI收录，影响因子：3.133)

62. W. L. Zang, P. Li, Y. M. Fu, L. L. Xing*通讯作者, X. Y. Xue, “Hydrothermal synthesis of Co-ZnOnanowire array and its application as piezo-driven self-powered humidity sensorwith high sensitivity and repeatability”, RSC Advances 2015, 5, 84343-84349. (SCI收录，影响因子：3.108)

63. J. Sun, Q. Wang, Q. Wang, D. A. Zhang, L. L. Xing*通讯作者, X. Y. Xue, “High capacity and cyclability ofSnO2-In2O3/graphene nanocomposites as the anode of lithium-ion battery”, Science of Advanced Materials 2016, 8,1280-1285. (SCI收录，影响因子：1.671)

64. L. L.Xing, Q. Wang, X. Y.Xue, “One-step synthesis of Pt-ZnOnanoflowers and their enhanced photocatalyticactivity”, Science of AdvancedMaterials 2016, 8, 1275-1279. (SCI收录，影响因子：1.671)

65. X. Y. Xue, Y. M. Fu, Q. Wang, L. L. Xing,Y. Zhang, “OutputtingOlfactory Bionic Electric Impulse by PANI/PTFE/PANI Sandwich Nanostructures andTheir Application as Flexible Smelling Electronic Skin”, Advanced Functional Materials 2016, 23, 3128-3138. (SCI收录，影响因子:12.124)

66. X. Y.Xue, Z. Qu, Y. M. Fu, B. W. Yu, L.L. Xing, Y. Zhang, “Self-Powered Electronic-Skin for Detecting Glucose Levelin Body Fluid Basing on Piezo-Enzymatic-Reaction Coupling Process”,NanoEnergy 2016, 26, 148-156. (SCI收录，影响因子:12.343)

67. D. Zhu, Y. M. Fu, W. L. Zang, Y. Y. Zhao, L.L. Xing*通讯作者, X. Y. Xue, “Room-temperatureself-powered ethanol sensor based on the piezo-surface coupling effect ofheterostructuredα-Fe2O3/ZnO nanowires”, MaterialsLetters 2016, 166, 288-291. (SCI收录，影响因子: 2.572)

68. Q. Wang, B. W. Yu, X. Li, L. L. Xing*通讯作者, X. Y.Xue, “Core-shell Co3O4/ZnCo2O4 coconut-likehollow spheres with extremely high-performance as anode materials forlithium-ion batteries”, Journalof Materials Chemistry A 2016, 4, 425 - 433. (SCI收录，影响因子: 8.867).

69. Z. Qu, Y. M. Fu, B. W. Yu, P. Deng, L. L. Xing*通讯作者, X. Y.Xue, “High and fast H2S response of NiO/ZnOnanowire nanogenerator as a self-powered gas sensor”, Sensorsand Actuators B: Chemical 2016, 222, 78-86. (SCI收录，影响因子：5.401)

70. C. Sun, Y. M. Fu, Q. Wang, L. L. Xing*通讯作者, B. D. Wang, X. Y.Xue, “Ultrafast piezo-photocatalytic degradationoforganic pollutions by Ag2O/tetrapod-ZnOnanostructures under ultrasonic/UVexposure”, RSC Advances2016,6, 87446-87453 .(SCI收录，影响因子：3.108).

71. M. Zhang, M. D. Cao, Y. M. Fu, L. L. Xing,Q. Wang,X. Y.Xue ,“Ultrafast/stable lithium-storage electrochemical performance ofFe/Fe3O4/carbonnanocomposites as lithium-ion battery anode”, Materials Letters 2016, 185, 282-285. (SCI收录，影响因子:2.572)

72. D. Y. Hong, W. L.Zang, X.Guo, Y. M. Fu, H. X. He, J.Sun, L. L. Xing, B. D. Liu,X. Y.Xue, “High Piezo-photocatalyticEfficiency of CuS/ZnO Nanowires Using Both Solar and Mechanical Energy forDegrading Organic Dye”, ACS Applied Materials & Interfaces 2016, 8, 21302-21314. (SCI收录，影响因子:7.504).

73. Y. X. Wang, Y. Wu, L. L. Xing, Q. Wang,X.Y.Xue,“CoMoO4/Fe2O3 core-shell nanorods with high lithium-storage performance as theanode of lithium-ion battery”, Journal of Alloys and Compounds 2016,689, 655-661. (SCI收录，影响因子：3.133)

74. X.Guo, Y. M. Fu, D. Y. Hong, B. W. Yu, H. X. He, Q.Wang, L. L. Xing*通讯作者,X. Y.Xue, “High-efficiency sono-solar-induceddegradation of organic dye by the piezophototronic/photocatalytic couplingeffect of FeS/ZnOnanoarrays'”, Nanotechnology 2016, 27, 375704.(SCI收录，影响因子:3.44)

75. X. C. Gao, Y. J. Shen, L. L. Xing, Q.Wang, X. Y.Xue, “High electrochemical performance of hierarchical CoMoS_3.13/SnO₂ nanocompositesas lithium-sulfur battery cathode”, Materials Letters 2016, 183, 413-416.(SCI收录，影响因子:2.572)

76. L. L. Zhang, Y. M. Fu, L. L. Xing*通讯作者, B. D. Liu, Y. Zhang, X. Y.Xue,“A self-powered flexible visionelectronic-skin for image recognition based on a pixel-addressable matrix ofpiezophototronicZnO nanowire arrays”, Journalof Materials Chemistry C 2017, 5, 6005 - 6013.(SCI收录，影响因子:5.256)

77. C. Y. Dong, Y. M. Fu, W. L.Zang, H. X. He, L.L. Xing*通讯作者, X. Y.Xue,“Self-powering/self-cleaning electronic-skin basing on PVDF/TiO2 nanofibers foractively detecting body motion and degrading organic pollutants”, AppliedSurface Science 2017, 416,424-431. (SCI收录，影响因子: 3.387).

78. H. F. Long, M. Y. Zhang, Q. Wang, L. L. Xing,S. Wang,X. Y.Xue, “Plasma-treated Co3O4/graphene nanocomposite as highperformanceanode of lithium-ion battery”, Journal of Alloys and Compounds 2017, 701, 200-207. (SCI收录，影响因子：3.133)

79. Y. M. Fu, H. X. He, Y. Liu, Q. Wang, L. L.Xing*通讯作者, X. Y.Xue, “Self-powered, stretchable,fiber-basedelectronic-skin for activelydetecting humanmotion and environmentalatmosphere based ona triboelectrification/gas-sensing coupling effect”, Journal of Materials Chemistry C 2017,5, 1231.(SCI收录，影响因子:5.256)

80. H. X. He, Y. M. Fu, W. L.Zang, Q. Wang,L. L.Xing, Y. Zhang,X. Y.Xue, “A flexible self-powered T-ZnO/PVDF/fabricelectronic-skin with multifunctionsof tactile-perception, atmosphere-detectionand self-clean”, Nano Energy 2017, 31, 37-48.(SCI收录，影响因子:12.343)

81. L. L. Zhang , D. Zhu, H. X. He, Q.Wang, L. L. Xing*通讯作者, X. Y. Xue,“Enhancedpiezo/solar-photocatalytic activity of Ag/ZnOnanotetrapodsarising from thecoupling of surface plasmon resonance andpiezophototronic effect”, Journalof Physics and Chemistry of Solids 2017, 102, 27-33. (SCI收录，影响因子:2.059)

82. M. D. Cao, M. Zhang, L. L. Xing, Q.Wang, X. Y.Xue, “One-step preparation of pomegranate-shaped Sn/SnOx/nanocarboncomposites for fabricating ultrafast-charging/long-life lithium-ion battery”, Journalof Alloys and Compounds 2017, 694, 30-39. (SCI收录，影响因子：3.133)

83. Q. Wang, L. L. Xing,X. Y.Xue,“SnO2-graphene nanocomposite paper as both the anode and currentcollector oflithium ion battery with high performance and flexibility”, Materials Letters 2017, 209, 155-158.(SCI收录，影响因子:2.572)

84. H. X. He, Y. M. Fu, T. M. Zhao,X. C. Gao, L.L. Xing, Y. Zhang,X. Y. Xue,“All-Solid-State Flexible Self-ChargingPower Cell Basing on Piezo-Electrolyte for Harvesting/Storing Body-MotionEnergy and Powering Wearable Electronics”, Nano Energy 2017, 39, 590-600. (SCI收录，影响因子:12.343)

85. W. X. Han, H. X. He, L. L. Zhang, C. Y. Dong, H.Zeng, Y. T. Dai, L. L. Xing*通讯作者, Y. Zhang, X. Y.Xue,“A Self-Powered Wearable Noninvasive Electronic-Skin for Perspiration AnalysisBased on Piezo-Biosensing Unit Matrix of Enzyme/ZnONanoarrays”,ACS Applied Materials & Interfaces 2017, 9, 29526-29537. (SCI收录，影响因子:7.504)

86. Y. M. Fu, M. Y. Zhang, Y. T. Dai, H. Zeng, C. Sun, Y.C. Han, L. L. Xing, S. Wang, X. Y. Xue, Y. Zhan, Y. Zhang, “A self-powered brain multi-perception receptor forsensory-substitution application”, Nano Energy 2018, 44, 43-52. (SCI收录，影响因子: 12.343)

87. W. Y. Yang, W. X. Han, H. L. Gao, L. L. Zhang, S.Wang, L. L. Xing, Y. Zhang, X. Y.Xue, “Self-powered implantableelectronic-skin for in-situ analyzing urea/uric-acid in bodyfluid and itspotential applications in real-time kidney-disease diagnosis”, Nanoscale 2018, 10, 2099-2107. (SCI收录，影响因子: 7.367)

88. W. L. H. Zhang, L. L. Zhang, H. L. Gao, W. Y. Yang,S. Wang, L. L. Xing, X. Y.Xue, “Self-poweredimplantable skin-like glucometer for real-time detection of blood glucose levelin vivo”, Nano-MicroLetters 2018, 10, 32. (SCI收录，影响因子: 4.849)

89. T. M. Zhao, Y. M. Fu, H. X. He, C. Y. Dong, L. L.Zhang, H. Zeng, L. L. Xing*通讯作者, XinyuXue, “A self-powered gustation electronic-skin formimicking taste bud basing on piezoelectric-enzymatic-reaction coupling process”, Nanotechnology 2018, 29, 075501. (SCI收录，影响因子: 3.44)

90. H. X. He, C. Y. Dong, Y. M. Fu, W. X. Han, T. M.Zhao, L. L. Xing*通讯作者, X. Y. Xue, “Self-poweredsmelling electronic-skin based on the piezo-gas-sensor matrix for real-timemonitoring the mining environment”, Sensors andActuators B:Chemical 2018, 267, 392-402. (SCI收录，影响因子：5.401)

91. Y. T. Dai, Y. M. Fu, H. Zeng, L. L. Xing,Y. Zhang, Y. Zhan, X. Y.Xue, “A Self-Powered Brain-Linked VisionElectronic-Skin Based on Triboelectric-Photodetecing Pixel-Addressable Matrixfor Visual-Image Recognition and Behavior Intervention”, Advanced Functional Materials 2018,accepted. (SCI收录，影响因子: 12.124)

92. W. X. Han, L. L. Zhang, H. X. He, H. M. Liu, L. L. Xing*通讯作者, X. Y.Xue, “Self-powered vision electronic-skin basingon piezo-photodetectingPpy/PVDF pixel-patterned matrix for mimicking vision”, Nanotechnology 2018, 29, 255501. (SCI收录，影响因子: 3.44)

联系方式：

Email：[email protected]

澳门六合彩官方