薛欣宇，男，1981年出生，現(xiàn)任東北大學(xué)理學(xué)院教授。

教育及工作經(jīng)歷：

1999.9-2003.7 南京大學(xué)物理系，本科，獲學(xué)士學(xué)位。

2003.9-2008.1 中國科學(xué)院物理研究所，研究生，獲博士學(xué)位。

2008.2-2012.12 東北大學(xué)理學(xué)院物理系，副教授。

2011.2-2012.2 美國佐治亞理工學(xué)院材料系，訪問學(xué)者。

2012.2-2012.8 美國佐治亞理工學(xué)院材料系，Research Scientist。

2013.1-至今 東北大學(xué)理學(xué)院物理系，教授。

學(xué)術(shù)兼職：

1、國際期刊論文評審專家：ACS Nano、J. Mater. Chem.、J. Phys. Chem. C、Appl. Phys. Lett.、Nano Research、Nanoscale、Electrochem. Commun.、Nanotechnology、ACS Appl. Mater. Interface、Mater. Lett.、Nano Energy、Chin. Phys. Lett.

2、遼寧省物理學(xué)會理事。

3、中國科學(xué)院納米能源與系統(tǒng)研究所客座教授。

主講課程：

《半導(dǎo)體物理》、《半導(dǎo)體器件》、《微納加工技術(shù)及應(yīng)用》

培養(yǎng)研究生情況：

碩士研究生在讀5人，已畢業(yè)6人。

研究方向：

1. 自充電電池（Self-charging Power Cell）

2. 自驅(qū)動納米系統(tǒng)（Self-powered Nanosystem）

3. 納米發(fā)電機與壓電電子學(xué)（Nanogenerator and Piezotronics）

4. 微納鋰離子電池（Micro-Nano Lithium-ion Battery）

5. 納米傳感器（Nanoscale Sensors）

       承擔(dān)科研項目情況：

1、主持國家自然科學(xué)基金"一維貴金屬/氧化物徑向異質(zhì)納米結(jié)構(gòu)的一步可控合成及其肖特基勢壘柵調(diào)控的光電特性研究"，2012.1-2014.12。

2、主持教育部基本科研業(yè)務(wù)費重點科技創(chuàng)新項目"新型柔性自充電能量元件的研究"。

3、主持教育部博士點基金"硅/石墨烯復(fù)合納米結(jié)構(gòu)材料的可控合成及其鋰離子電池負(fù)極性能研究"。

4、主持完成教育部基本科研業(yè)務(wù)費"催化劑修飾或異質(zhì)結(jié)構(gòu)的準(zhǔn)一維復(fù)合納米體系及其室溫高敏感氣體傳感特性研究"。

5、主持完成遼寧省自然科學(xué)基金"納米材料室溫高敏感氣體傳感器研究"，2010.1-2012.12。

發(fā)明專利：

1 銻摻雜氧化鋅納米陣列自供能濕度傳感器及其制備方法 薛欣宇;朱勇學(xué);李其峰 東北大學(xué) 中國專利 2015-04-03 2015-07-22

發(fā)表論文： 

2015 (影響因子=75.53)

83. Weili Zang, Pan Li, Yongming Fu, Lili Xing* and Xinyu Xue*通訊作者, “Hydrothermal synthesis of Co-ZnO nanowire array and its application as piezo-driven self-powered humidity sensor with high sensitivity and repeatability”, RSC Advances 2015, 5, 84343-84349. (SCI收錄，影響因子：3.84).

82. J. Sun, Q. Wang, Q. Wang, D. A. Zhang, L. L. Xing, Xinyu Xue*通訊作者, "High capacity and cyclability of SnO2-In2O3/graphene nanocomposites as the anode of lithium-ion battery", Science of Advanced Materials 2015, accepted. (SCI收錄，影響因子：2.598)

81. L. L. Xing, Q. Wang, Xinyu Xue*通訊作者, “One-step synthesis of Pt-ZnO nanoflowers and their enhanced photocatalytic activity”, Science of Advanced Materials 2015, accepted. (SCI收錄，影響因子：2.598)

80. Z. Qu, Y. M. Fu, B. W. Yu, P. Deng, L. L. Xing, Xinyu Xue*通訊作者 , “High and fast H2S response of NiO/ZnO nanowire nanogenerator as a self-powered gas sensor”, Sensors and Actuators B: Chemical 2016, 222, 78-86. (SCI收錄，影響因子：4.097)

79. Tianming Zhao, Yongming Fu, Yayu Zhao, Lili Xing, Xinyu Xue*通訊作者, “Ga-doped ZnO nanowire nanogenerator as self-powered/active humidity sensor with high sensitivity and fast response”, Journal of Alloys and Compounds 2015, 648, 571-576. (SCI收錄，影響因子：2.999)

78. De-an Zhang, Qiang Wang, Qi Wang, Jing Sun, Lili Xing, Xinyu Xue*通訊作者, “High capacity and cyclability of hierarchical MoS2/SnO2 nanocomposites as the cathode of lithium-sulfur battery”, Electrochimica Acta 2015, 173, 476-482. (SCI收錄，影響因子：4.504).

77. Yongming Fu, Yuxin Nie, Yayu Zhao, Penglei Wang, Lili Xing, Yan Zhang, Xinyu Xue*通訊作者, “Detecting liquefied petroleum gas (LPG) at room temperature using ZnSnO3/ZnO nanowire piezo-nanogenerator as self-powered gas sensor”, ACS Applied Materials & Interfaces 2015, 7, 10482-10490. (SCI收錄，影響因子:6.723).

76. Yongxue Zhu, Qifeng Li, Penglei Wang, Weili Zang, Lili Xing, Xinyu Xue*通訊作者, “Enhanced piezo-humidity sensing of Sb-doped ZnO nanowire arrays as self-powered/active humidity sensor ”, Materials Letters 2015, 154, 77-80. (SCI收錄，影響因子:2.489)

75. Binwei Yu, Yongming Fu, Penglei Wang, Yayu Zhao, Lili Xing and Xinyu Xue*通訊作者, “Enhanced piezo-humidity sensing of Cd-ZnO nanowires nanogenerator as self-powered/active gas sensor by coupling the piezoelectric screening effect and dopant displacement mechanism”, Physical Chemistry Chemical Physics 2015, 17, 10856-10860. (SCI收錄，影響因子:4.493)

74. Dan Zhu, Tianxiang Hu, Yayu Zhao, Weili Zang, Lili Xing and Xinyu Xue*通訊作者, “High-performance self-powered/active humidity sensing of Fe-dopedZnO nanoarray nanogenerator”, Sensors and Actuators B:Chemical 2015, 213, 382-389. (SCI收錄，影響因子：4.097)

73. Xinyu Xue, Weili Zang, Ping Deng, Qi Wang, Lili Xing, Yan Zhang, Zhong Lin Wang*, “Piezo-Potential Enhanced Photocatalytic Degradation of Organic Dye using ZnO Nanowires”, Nano Energy 2015, 13, 414-422. (SCI收錄，影響因子:10.325)

72. Qiang Wang, Jing Sun, Qi Wang, De-an Zhang, Lili Xing and Xinyu Xue*通訊作者, “Electrochemical performance of a-MoO3–In2O3 core–shell nanorods as anode materials for lithium-ion batteries”, Journal of Materials Chemistry A 2015, 3, 5083–5091. (SCI收錄，影響因子:7.443).

71. Penglei Wang, Yongming Fu, Binwei Yu, Yayu Zhao, Lili Xing and Xinyu Xue*通訊作者, “Realizing room-temperature self-powered ethanol sensing of ZnO nanowire arrays by combining their piezoelectric, photoelectric and gas sensing characteristics”, Journal of Materials Chemistry A 2015, 3, 3529-3535. (SCI收錄，影響因子:7.443).

70. Yayu Zhao, Yongming Fu, Penglei Wang, Lili Xing and Xinyu Xue*通訊作者, “Highly stable piezo-immunoglobulin-biosensing of SiO2/ZnO nanogenerator as self-powered/active biosensor arising from the field effect influenced piezoelectric screening effect”, Nanoscale 2015, 7, 1904-1911. (SCI收錄，影響因子:7.394)

69. Yongming Fu, Yayu Zhao, Penglei Wang, Lili Xing and Xinyu Xue*通訊作者, “High response and selectivity of a Cu–ZnO nanowire nanogenerator as a self-powered/active H2S sensor”, Physical Chemistry Chemical Physics 2015, 17, 2121-2126. (SCI收錄，影響因子:4.493) 

2014 (影響因子=110.143)

68. Xinyu Xue, P. Deng, B. He, Y. X. Nie, Lili Xing, Y. Zhang, Z. L. Wang*, “Flexible self-charging power cell for one-step energy conversion and storage”, Advanced Energy Materials 2014, 4, 1301329. (SCI收錄，影響因子:16.146)

67. Y. M. Fu, W. L. Zang, P. L. Wang, Lili Xing, Xinyu Xue*通訊作者, Y. Zhang, “Portable room-temperature self-powered/active H2 sensor driven by human motion through piezoelectric screening effect”, Nano Energy 2014, 8, 34-43. (SCI收錄，影響因子:10.325)

66. Lili Xing, Y. X. Nie, Xinyu Xue*通訊作者, Y. Zhang, “PVDF mesoporous nanostructures as the piezo-separator for a piezoelectric self-charging power cell”, Nano Energy 2014, 10, 44-52. (SCI收錄，影響因子:10.325)

65. Y. J. Lin, Ping Deng, Y. X. Nie, Y. F. Hu, Lili Xing, Y. Zhang, Xinyu Xue*通訊作者, “Room-temperature self-powered ethanol sensing of Pd/ZnO nanoarray nanogenerator driven by human finger movement”, Nanoscale 2014, 6, 4604-4610. (SCI收錄，影響因子:7.394)

64. Y. Y. Zhao, P. Deng, Y. X. Nie, P. L. Wang, Y. Zhang, Lili Xing, Xinyu Xue*通訊作者, “Biomolecule-adsorption-dependent piezoelectric output of ZnO nanowire nanogenerator and its application as self-powered active biosensor”, Biosensors & Bioelectronics 2014, 57, 269-275. (SCI收錄，影響因子:6.409)

63. W. L. Zang, D. Zhu, Y. X. Nie, P. Deng, Lili Xing, Xinyu Xue*通訊作者, “Core-shell In2O3/ZnO nanoarray nanogenerator as a self-powered active gas sensor with high H2S sensitivity and selectivity at room temperature”, Journal of Physical Chemistry C 2014, 118, 9209-9216. (SCI收錄，影響因子:4.772)

62. Q. Wang, D. A. Zhang, Q. Wang, J. Sun, Lili Xing, Xinyu Xue*通訊作者, “High electrochemical performances of α-MoO3@MnO2 core-shell nanorods as lithium-ion battery anodes”, Electrochimica Acta 2014, 146, 411-418. (SCI收錄，影響因子： 4.504)

61. Lili Xing, P. Deng, B. He, Y. X. Nie, X. L. Wu, S. Yuan, C. X. Cui, Xinyu Xue*通訊作者, “Assembly of FeWO4-SnO2 core-shell nanorods and their high reversible capacity as lithium-ion battery anodes”, Electrochimica Acta 2014, 118, 45-50. (SCI收錄，影響因子：4.504)

60. Lili Xing, Y. F. Hu, P. L. Wang, Y. Y. Zhao, Y. X. Nie, P. Deng, Xinyu Xue*通訊作者, “Realizing room-temperature self-powered ethanol sensing of Au/ZnO nanowire arrays by coupling the piezotronics effect of ZnO and the catalysis of noble metal”, Applied Physics Letters 2014, 104, 013109. (SCI收錄，影響因子：3.302)

59. Q. Wang, Q. Wang, D. A. Zhang, J. Sun, Lili Xing, Xinyu Xue*通訊作者, “Core-shell α-Fe2O3@α-MoO3 nanorods as lithium-ion battery anodes with extremely high capacity and cyclability”, Chemistry-an Asian Journal 2014, 9, 3299-3306. (SCI收錄，影響因子:4.587)

58. P. L. Wang, P. Deng, Y. X. Nie, Y. Y. Zhao, Y. Zhang, Lili Xing, Xinyu Xue*通訊作者, “Synthesis of CdS nanorod arrays and their applications in flexible piezo-driven active H2S sensor”, Nanotechnology 2014, 25, 075501. (SCI收錄，影響因子:3.821)

57. Y. Zhang, Y. J. Zhang, Xinyu Xue*通訊作者, C. X. Cui, B. He, Y. X. Nie, P. Deng, Z. L. Wang, “PVDF-PZT nanocomposite film based self-charging power cell”, Nanotechnology 2014, 25, 105401. (SCI收錄，影響因子:3.821)

56. Y. Y. Zhao, X. Lai, P. Deng, Y. N. Nie, Y. Zhang, Lili Xing, Xinyu Xue*通訊作者, “Pt/ZnO nanoarray nanogenerator as self-powered active gas sensor and the linear ethanol sensing at room temperature”, Nanotechnology 2014, 25, 115502. (SCI收錄，影響因子:3.821)

55. Y. X. Nie, P. Deng, Y. Y. Zhao, P. L. Wang, Lili Xing, Y. Zhang, Xinyu Xue*通訊作者, “The conversion of PN-junctions influencing the piezoelectric output of CuO/ZnO nanoarray nanogenerator and its application as a room-temperature self-powered active H2S sensor”, Nanotechnology 2014, 25, 265501. (SCI收錄，影響因子:3.821)

54. W. L. Zang, W. Wang, D. Zhu, Lili Xing, Xinyu Xue*通訊作者, “Humidity-dependent piezoelectric output of Al–ZnO nanowire nanogenerator and its applications as a self-powered active humidity sensor”, RSC Advances 2014, 4, 56211-56215. (SCI收錄，影響因子：3.84).

53. D. Zhu, Y. M. Fu, W. L. Zang, Y. Y. Zhao, Lili Xing, Xinyu Xue*通訊作者 , “Piezo/active humidity sensing of CeO2/ZnO and SnO2/ZnO nanoarray nanogenerators with high response and large detecting range” Sensors and Actuators B:Chemical 2014, 205, 12-19. (SCI收錄，影響因子： 4.097)

52. D. A. Zhang, Q. Wang, Q. Wang, J. Sun, Lili Xing, Xinyu Xue*通訊作者, “Core–shell SnO2@TiO2–B nanowires as the anode of lithium ion battery with high capacity and rate capability”, Materials Letters 2014, 128, 295-298. (SCI收錄，影響因子:2.489)

51. Q. Wang, B. He, Lili Xing, Xinyu Xue*通訊作者, “SnS2-graphene nanocomposites as anodes of lithium-ion batteries”, Solid State Sciences 2014, 31, 81-84. (SCI收錄，影響因子:1.839)

50. Lili Xing, Z. H. Chen, Xinyu Xue*通訊作者, “Controllable synthesis Co3O4 nanorods and nanobelts and their excellent lithium storage performance”, Solid State Sciences 2014, 32, 88-93. (SCI收錄，影響因子:1.839)

49. Q. Wang, J. Zhao, W. F. Shan, X. B. Xia, Lili Xing, Xinyu Xue*通訊作者, “CuO nanorods/graphene nanocomposites for high-performance lithium-ion battery anodes”, Journal of Alloys and Compounds 2014, 590, 424-427. (SCI收錄，影響因子：2.999)

48. Q. Wang, C. Y. Zhang, W. F. Shan, Lili Xing, Xinyu Xue*通訊作者, “Uniformly loading NiO nanowalls on graphene and their extremely high capacity and cyclability as anodes of lithium-ion batteries”, Materials Letters 2014, 118, 66-68. (SCI收錄，影響因子：2.489)

47. Lili Xing, Y. Y. Zhao, J. Zhao, Y. X. Nie, P. Deng, Q. Wang, Xinyu Xue*通訊作者, “Facile synthesis and lithium storage performance of SnO2-Co3O4 core-shell nanoneedle arrays on copper foil”, Journal of Alloys and Compounds 2014, 586, 28-33. (SCI收錄，影響因子：2.999)

2013 (影響因子=42.077)

46. Xinyu Xue*通訊作者, P. Deng, S. Yuan, Y. X. Nie, B. He, Lili Xing and Y. Zhang, “CuO/PVDF nanocomposite anode for a piezo-driven self-charging lithium battery”, Energy & Environmental Science 2013,6, 2615-2620. (SCI收錄，影響因子：20.523).

45. Xinyu Xue*通訊作者, Y. X. Nie, B. He, Lili Xing, Y. Zhang and Z. L. Wang*, “Surface free-carrier screening effect on the output of a ZnO nanowire nanogenerator and its potential as a self-powered active gas sensor”, Nanotechnology 2013, 24, 225501 (SCI收錄，影響因子：3.821).

44. Lili Xing, S. Yuan, B. He, Y. Y. Zhao, X. L. Wu, Xinyu Xue*通訊作者, “Synergistic effect of SnO2/ZnWO4 core-shell nanorods with high reversible lithium storage capacity”, Chemistry-an Asian Journal 2013, 8, 1530-1535. (SCI收錄，影響因子:4.587).

43. Lili Xing, C. X. Cui, P. Deng, Y. X. Nie, Y. Y. Zhao, B. He, Xinyu Xue*通訊作者, “Template-free assembly of α-Fe2O3/SnO2 core-shell nanorod arrays on titanium foils and their excellent lithium storage performance”, RSC Advances 2013, 3, 10379-10384. (SCI收錄，影響因子：3.84).

42. Q. Wang, C. Y. Zhang, X. B. Xia, Lili Xing, Xinyu Xue*通訊作者, “Extremely high capacity and stability of Co3O4/graphene nanocomposites as the anode of lithium-ion battery”, Materials Letters 2013, 112, 162-164. (SCI收錄，影響因子：2.489)

41. Lili Xing, B. He, Y. X. Nie, P. Deng, C. X. Cui, Xinyu Xue*通訊作者, “SnO2–MnO2–SnO2 sandwich-structured nanotubes as high-performance anodes of lithium ion battery”, Materials Letters 2013, 105, 169-172. (SCI收錄，影響因子:2.489).

40. Lili Xing, B. He, Z. H. Chen, Xinyu Xue*通訊作者, "Schottky barrier and catalytic effect induced high gas sensing of one-step synthesized Pd-SnO2 nanorods", Solid State Sciences 2013, 15, 42-46. (SCI收錄，影響因子:1.839).

39. Lili Xing, C. X. Cui, B. He, Y X. Nie, P. Deng, Xinyu Xue*通訊作者, “SnO2/NiO core-shell nanobelts and their high reversible lithium storage capacity arising from synergistic effect”, Materials Letters 2013, 96, 158-161. (SCI收錄，影響因子:2.489).

2012 (影響因子=42.372)

38. Xinyu Xue, S. H. Wang, W. X. Guo, Y. Zhang, and Z. L. Wang*, “Hybridizing Energy Conversion and Storage in a Mechanical-to-Electrochemical Process for Self-Charging Power Cell”, Nano Letters 2012, 12, 5048-5054. (SCI收錄，影響因子:13.592).

37. W. X. Guo, Xinyu Xue共同第一作者, S. H. Wang, C. J. Lin, and Z. L. Wang*, “An Integrated Power Pack of Dye-Sensitized Solar Cell and Li Battery Based on Double-Sided TiO2 Nanotube Arrays”, Nano Letters 2012, 12, 2520-2523. (SCI收錄，影響因子:13.592).

36. C. L. Zhu, H. L. Yu, Y. Zhang, T. S. Wang, Q. Y. Ouyang, L. H. Qi, Y. J. Chen, and Xinyu Xue*通訊作者, “Fe2O3/TiO2 Tube-like Nanostructures: Synthesis, Structural Transformation and the Enhanced Sensing Properties”, ACS Applied Materials & Interfaces 2012, 4, 665-671. (SCI收錄，影響因子:6.723).

35. H. L. Yu, T. Wang, B. Wen, M. Lu, Z. Xu, C. Zhu, Y. J. Chen, Xinyu Xue*通訊作者, C. Sun and M. Cao, “Graphene/polyaniline nanorod arrays: synthesis and excellent electromagnetic absorption properties”, Journal of Materials Chemistry 2012, 22, 21679-21685. (SCI收錄，影響因子:6.626).

34. Lili Xing, C. H. Ma, C. X. Cui and Xinyu Xue*通訊作者, “Structural and electrochemical properties of SnO2/nanocarbon families as lithium-ion battery anodes”, Solid State Sciences 2012, 14, 111-116. (SCI收錄，影響因子:1.839).

2011 (影響因子=32.17)

33. Xinyu Xue*通訊作者, S. Yuan, Lili Xing, Z. H. Chen, Bin He, and Y. J. Chen, “Porous Co3O4 nanoneedle arrays growing directly on copper foils and their ultrafast charging/discharging as lithium-ion battery anodes”, Chemical Communications 2011, 47, 4718-4720. (SCI收錄，影響因子:6.834).

32. Xinyu Xue*通訊作者, Z. H. Chen, Lili Xing, Shuang Yuan, and Y. J. Chen, “SnO2/α-MoO3 core-shell nanobelts and their extraordinarily high reversible capacity as lithium-ion battery anodes”, Chemical Communications 2011, 47, 5205-5207. (SCI收錄，影響因子:6.834).

31. Xinyu Xue*通訊作者, B. He, S. Yuan, Lili Xing, Z. H. Chen and C. H. Ma, “SnO2/WO3 core–shell nanorods and their high reversible capacity as lithium-ion battery anodes”, Nanotechnology 2011, 22, 395702. (SCI收錄，影響因子:3.821).

30. Lili Xing, C. H. Ma, Z. H. Chen, Y. J. Chen, and Xinyu Xue*通訊作者, “High gas sensing performance of one-step synthesized Pd-ZnO nanoflowers due to surface reactions and modifications”, Nanotechnology 2011, 22, 215501. (SCI收錄，影響因子:3.821).

29. Lili Xing, S. Yuan, Z. H. Chen, Y. J. Chen, and Xinyu Xue*通訊作者, “Enhanced gas sensing performance of SnO2/α-MoO3 heterostructure nanobelts”, Nanotechnology 2011, 22, 225502. (SCI收錄，影響因子:3.821).

28. Lili Xing, C. H. Ma, Z. H. Chen, and Xinyu Xue*通訊作者, “Temperature-dependent linear or nonlinear gas sensing characteristics of In2O3 mixed α-Fe2O3 nanorods with high sensitivity”, Applied Surface Science 2011, 257, 8576-8580. (SCI收錄，影響因子:2.711).

27. Lili Xing, C. X. Cui, C. H. Ma, and Xinyu Xue*通訊作者, “Facile synthesis of α-MnO2/graphene nanocomposites and their high performance as lithium-ion battery anode”, Materials Letters 2011, 65, 2104-2106. (SCI收錄，影響因子:2.489).

26. Xinyu Xue*通訊作者, C. H. Ma, C. X. Cui, and Lili Xing, “High lithium storage performance of α-Fe2O3/graphene nanocomposites as lithium-ion battery anodes”, Solid State Sciences 2011, 13, 1526-1530. (SCI收錄，影響因子:1.839).

2010 (影響因子=15.204)

25. Xinyu Xue*通訊作者, Z. H. Chen, C. H. Ma, Lili Xing, Y. J. Chen, Y. G. Wang, and T. H. Wang, “One-step Synthesis and Gas Sensing Characteristics of Uniformly-loaded Pt@SnO2 Nanorods”, Journal of Physical Chemistry C 2010, 114, 3968-3972. (SCI收錄，影響因子:4.772).

24. Xinyu Xue*通訊作者, Z. H. Chen, Lili Xing, C. H. Ma, Y. J. Chen, and T. H. Wang,“ Enhanced Optical and Sensing Properties of One-Step Synthesized Pt-ZnO Nanoflowers”, Journal of Physical Chemistry C 2010, 114, 18607-18611. (SCI收錄，影響因子:4.772).

23. Xinyu Xue*通訊作者, Z. H. Chen, Y. J. Chen, C. H. Ma, Lili Xing, Y. G. Wang, and T. H. Wang, “Abnormal gas sensing characteristics arising from catalyzed morphological changes of ionsorbed oxygen”, Nanotechnology 2010, 21, 065501. (SCI收錄，影響因子:3.821).

22. Lili Xing*, and Xinyu Xue, “Electrochemistry-assisted self-assembly of oriented zinc oxide and long-chain alkyl amine surfactant multilamellar nanostructures”, Solid State Sciences 2010, 12, 1593-1598. (SCI收錄，影響因子:1.839).

2009 and Before (影響因子=75.905)

21. Xinyu Xue*通訊作者, Lili Xing, Y. G. Wang, and T. H. Wang, “ Preparation, characterization and electrical transport properties of individual α-MnO2 and β-MnO2 nanorods ”, Solid State Sciences 2009, 11, 2106-2110. (SCI收錄，影響因子:1.839).

20. Xinyu Xue*通訊作者, Lili 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收錄，影響因子:4.772).

19. Xinyu Xue*通訊作者, T. L. Guo, Z. X. Lin and T. H. Wang, “Individual core-shell structured ZnSnO3 nanowires as photoconductors”, Materials Letters 2008, 62, 1356-1358. (SCI收錄，影響因子:2.489).

18. Y. G. Liu, S. L. Shi, Xinyu Xue, Y. G. Wang, and T. H. Wang, “Edge-truncated cubic Platinum Nanoparticles as Anode Catalysts for Direct Methanol Fuel Cells ”, Applied Physics Letters 2008, 92, 203105. (SCI收錄，影響因子:3.302).

17. Y. J. Chen, C. L. Zhu, Xinyu Xue, X. L. Shi, and M. S. Cao, ” High capacity and excellent cycling stability of single-walled carbon nanotube/SnO2 core-shell structures as Li-insertion materials ”,Applied Physics Letters 2008, 92, 223101. (SCI收錄，影響因子:3.302).

16. Xinyu Xue, P. Feng, Y. G. Wang and T. H. Wang, “Extremely high oxygen sensing of individual ZnSnO3 nanowires arising from grain boundary barrier modulation”, Applied Physics Letters 2007, 91, 022111. (SCI收錄，影響因子:3.302).

15. Xinyu Xue*通訊作者, S. L. Shi, Z. X. Lin, K. L. Zheng, Y. A. Zhang, T. L. Guo and T. H. Wang, “Optoelectronic characteristics and field emission properties of indium-doped tin oxide nanowire arrays”, Chinese Physics Letters 2007, 24, 3492-3494. (SCI收錄，影響因子:0.947).

14. Y. G. Liu, P. Feng, Xinyu Xue, S. L. Shi, X. Q. Fu, C. Wang, Y. G. Wang and T. H. Wang, “Room-temperature oxygen sensitivity of ZnS nanobelts”, Applied Physics Letters 2007, 90, 042109. (SCI收錄，影響因子:3.302).

13. C. Wang, X. Q. Fu, Xinyu Xue, Y. G. Wang and T. H. Wang, “Surface accumulation conduction controlled sensing characteristics of p-type CuO nanorods induced by oxygen adsorption”, Nanotechnology 2007, 18, 145506. (SCI收錄，影響因子:3.821).

12. S. L. Shi, Xinyu Xue, P. Feng, Y. G. Liu, H. Zhao, and T. H. Wang, “Low-temperature synthesis and electrical transport properties of W18O49 nanowires”, Journal of Crystal Growth 2007,310, 462-466. (SCI收錄，影響因子:1.698).

11. Y. W. Tan, Xinyu Xue, Q. Peng, H. Zhao, T. H. Wang, and Y. D. Li, “Controllable Fabrication and Electrical Performance of Single Crystalline Cu2O Nanowires with High Aspect Ratios”, Nano Letters 2007, 7, 3723-3728. (SCI收錄，影響因子:13.592).

10. Xinyu Xue, Y. J. Chen, Q. H. Li, C. Wang, Y. G. Wang and T. H. Wang, “Electronic transport characteristics through individual ZnSnO3 nanowires”, Applied Physics Letters 2006, 88, 182102. (SCI收錄，影響因子:3.302).

9. Xinyu Xue, Y. J. Chen, Y. G. Liu, S. L. Shi, Y. G. Wang and T. H. Wang, “Synthesis and ethanol sensing properties of indium-doped tin oxide nanowires”, Applied Physics Letters 2006, 88, 201907. (SCI收錄，影響因子:3.302).

8. Xinyu Xue, P. Feng, C. Wang, Y. J. Chen, Y. G. Wang and T. H. Wang, “Electrical transport through individual nanowires with transverse grain boundaries”, Applied Physics Letters 2006, 89, 022115. (SCI收錄，影響因子:3.302).

7. Xinyu Xue, L. M. Li, H. C. Yu, Y. J. Chen, Y. G. Wang and T. H. Wang, “Extremely stable field emission from AlZnO nanowire arrays”, Applied Physics Letters 2006, 89, 043118. (SCI收錄，影響因子:3.302).

6. P. Feng, Xinyu Xue, Y. G. Liu, Q. Wan and T. H. Wang, “Achieving fast oxygen response in individual β-Ga2O3 nanowires by ultraviolet illumination”, Applied Physics Letters 2006, 89, 112114. (SCI收錄，影響因子:3.302).

5. P. Feng, Xinyu Xue, Y. G. Liu and T. H. Wang, “Highly sensitive ethanol sensors based on {001}-bounded In2O3 nanocrystals due to fact contact”, Applied Physics Letters 2006, 89, 243514. (SCI收錄，影響因子:3.302).

4. Y. J. Chen, L. Nie, Xinyu Xue, Y. G. Wang and T. H. Wang, “Linear ethanol sensing of SnO2 nanorods with extremely high sensitivity”, Applied Physics Letters 2006, 88, 083105. (SCI收錄，影響因子:3.302).

3. Xinyu Xue, Y. J. Chen, Y. G. Wang and T. H. Wang, “Synthesis and ethanol sensing properties of ZnSnO3 nanowires”, Applied Physics Letters 2005, 86, 233101. (SCI收錄，影響因子:3.302).

2. Y. J. Chen, Xinyu Xue, Y. G. Wang and T. H. Wang, “Synthesis and ethanol sensing characteristics of single crystalline SnO2 nanorods”, Applied Physics Letters 2005, 87, 233503. (SCI收錄，影響因子:3.302).

1. Y. J. Chen, Xinyu Xue and T. H. Wang, “Large-scale controlled synthesis of silica nanotubes using zinc oxide nanowires as templates”, Nanotechnology 2005, 16, 1978-1982. (SCI收錄，影響因子:3.821).

 

榮譽獎勵：

1、2012年，"自充電電池將能量轉(zhuǎn)化和能量存儲合二為一"（薛欣宇第一作者，王中林院士通訊作者）被英國物理學(xué)會物理世界評為2012年度世界十大科學(xué)突破。

2、2013年，入選教育部"新世紀(jì)優(yōu)秀人才支持計劃"。

3、2013年，入選"遼寧省高等學(xué)校優(yōu)秀人才支持計劃第一層次人才"。

4、2013年，入選遼寧省"百千萬人才工程"千人層次 。

5、2013年，遼寧省自然科學(xué)學(xué)術(shù)成果獎，一等獎。

6、2013年，入選東北大學(xué)"曙光學(xué)者"。