English
王辉 教授
研究机构: 光科学与技术研究所
研究领域: 半导体光电材料及器件、微电子、自旋电子学
办公地点: 理科群楼5号楼433室
办公电话: 86-21-54747244
电子邮箱: huiwang@sjtu.edu.cn
研究方向: 高灵敏度半导体光电探测器、用于数据存储的阻变开关效应

简历:

王辉,上海交通大学物理与天文学院教授(复旦理学博士,MIT博士后),博士生导师,研究工作主要集中在微电子(用于数据存储或者神经网络计算的大窗口、低损耗忆阻器)、金属-半导体结构中的光电效应(高灵敏光电探测器)等交叉领域。主讲本科生的《高等光学》,研究生的《纳米光子学》及《非线性光学》。在 IEEE Electron Device Letters (8), IEEE Photonics Technology Letters, Advanced Materials, Small, Advanced Electronic Materials, Annalen der Physik, Physical Review Applied , ACS Applied Materials & Interfaces, New Journal of Physics, Applied Physics Letters (16) ,  Optics Express+ Optics Letters (16), ACS Appl. Electron. Mater, Nanotechnology, Applied Surface Science 等国际专业学术期刊上发表论文百余篇(全部为通讯作者,含多篇封面文章和邀请综述)。作为项目负责人主持六项国家自然科学基金项目(项目批准号:11874041, 61574090, 11374214, 10974135, 60776035, 60378028)及若干项上海市科技发展基金项目。

主要著作:

Selected Publications (all as the corresponding author*):

部分文章(全部为通讯作者*,在上海交大独立完成)

  1. Xinhui Zhao, Ke Chang, Binbin Liu, Kang'an Jiang, Chenhua Hu, Ying Wang, and Hui Wang*, “Electrochemical-tunable and mesostructure-dependent abrupt-to-progressive conversion in fibroin-based transient memristor”, Appl. Phys. Lett. 121, 023301 (2022); https://doi.org/10.1063/5.0098750  Featured: This paper was selected as Featured
  2. Yizhen Li, Xinhui Zhao, Ke Chang, Yiru Niu, Xinna Yu, and Hui Wang*, “Enhancing the Resistive Switching Performance in a Physically Transient Memristor by Doping MoS2 Quantum Dots”, PHYSICAL REVIEW APPLIED 17, 034007 (2022); DOI: 10.1103/PhysRevApplied.17.034007
  3. Yiru Niu, Xinna Yu, Xinyuan Dong, Diyuan Zheng, Shuai Liu, Zhikai Gan, Ke Chang, Binbin Liu, Kang’an Jiang, Yizhen Li and Hui Wang*, “Improved Al2O3 RRAM performance based on SiO2/MoS2 quantum dots hybrid structure”, Appl. Phys. Lett. 120, 022106 (2022); doi: 10.1063/5.0070400
  4. Diyuan Zheng, Xinyuan Dong, Jing Lu, Yiru Niu and Hui Wang*, “High-sensitivity Infrared Photoelectric Detection based on WS2/Si Structure Tuned by Ferroelectrics”, Small 2021, 2105188, DOI: 10.1002/smll.202105188 (2021)
  5. Binbin Liu, Ke Chang, Xinna Yu, Yiru Niu, Xinyuan Dong, and Hui Wang*, “Compliance-Current Manipulation of Dual-Filament Switching in a Ta/Ta2O5/In-Sn-O Structure with an Ultralow Power Consumption”, Physical Review Applied 16, 044050 (2021); DOI: 10.1103/PhysRevApplied.16.044050
  6. Xinna Yu, Ke Chang, Anhua Dong, Zhikai Gan, Kang'an Jiang, Yibin Ling, Yiru Niu, Diyuan Zheng, Xinyuan Dong, Renzhi Wang, Yizhen Li, Zhuyikang Zhao, Peng Bao, Binbin Liu, Yuhong Cao, Su Hu, Hui Wang*, “High-Performance Resistive Switching Memory with Embedded Molybdenum Disulfide Quantum Dots”. Appl. Phys. Lett. 118, 172104 (2021); https://doi.org/10.1063/5.0039654
  7. Yuhong Cao, Zhuyikang Zhao, Peng Bao, Zhikai Gan, and Hui Wang*, “Lateral photovoltaic effect in silk-protein-based nanocomposite structure for physically transient position-sensitive detectors”, Physical Review Applied 15,054011 (2021); DOI:10.1103/PhysRevApplied.15.054011
  8. Ke Chang, Xinna Yu, Binbin Liu, Yiru Niu, Renzhi Wang, Peng Bao, Gaoqi Hu, Hui Wang*, “Quantum-dots optimized Electrode for High-stability Transient Memristor”, IEEE Electron Device Letters, VOL. 42, NO. 6, JUNE 2021; DOI: 10.1109/LED.2021.3075835
  9. Xinyuan Dong, Diyuan Zheng, Jing Lu, Yiru Niu, Binbin Liu, and Hui Wang*, “Plasmon-enhanced lateral photovoltaic effect observed in Ag-ZnO core–shell nanoparticles”, Appl. Phys. Lett. 118, 122101 (2021); doi: 10.1063/5.0044981
  10. Shuai Liu, Anhua Dong, Xinyuan Dong, yiru niu, Diyuan Zheng, and Hui Wang*, “Heterojunction interface induced enhancement of position-sensitive photodetection in the nano-film of Ti/SrTiO3 based on the p-type silicon”, Opt. Letters, Vol. 46, issue 13, pp. 3041-3044 (2021); https://doi.org/10.1364/OL.428124
  11. Xinyuan Dong, Diyuan Zheng, Jing Lu, Yiru Niu and Hui Wang*, “Selectively enhanced violet and infrared position sensitive photodetectors based on RTA treated ZnO/Si”, Applied Surface Science, 566 (2021) 150687, https://doi.org/10.1016/j.apsusc.2021.150687 (2021).
  12. Shuai Liu, Xinyuan Dong, Yiru Niu, Diyuan Zheng, Zhikai Gan, and Hui Wang*, “Enhancement of light-induced resistance effect in the nanostructure of Ag/graphene based on the n-type silicon”, Appl. Phys. Lett. 119, 061104 (2021); doi: 10.1063/5.0062661 (2021)
  13. Xinyuan Dong, Diyuan Zheng, Jing Lu, Yiru Niu and Hui Wang*, “Efficient hot electron extraction of Ag-Cu nanoparticles for high performance lateral photovoltaic effect”, IEEE Electron Device Letters, VOL. 42, NO. 10, OCTOBER 2021, DOI: 10.1109/LED.2021.3106740 (2021)
  14. Ke Chang, Anhua Dong, Xinna Yu, Binbin Liu, Xinhui Zhao, Renzhi Wang, Zhikai Gan, Kang'an Jiang, Yiru Niu, Xinyuan Dong, Diyuan Zheng, Yizhen Li, Peng Bao, Zhuyikang Zhao, Hui Wang*, “Unconventional Resistive Switching Behavior in Fibroin-Based Memristor”. Adv. Electron. Mater. 2021, 2100843, DOI: 10.1002/aelm.202100843 (2021).
  15. Yiru Niu, Kang’an Jiang, Xinyuan Dong, Diyuan Zheng, Binbin Liu and Hui Wang*, “High performance and low power consumption resistive random access memory with Ag/Fe2O3/Pt structure”, Nanotechnology 32, 505715, https://doi.org/10.1088/1361-6528/ac26fd. (2021).
  16. Diyuan Zheng, Xinyuan Dong, Yiru Niu and Hui Wang*, “Ultrafast and Hypersensitized Detection Based on van der Waals Connection in Two-dimensional WS2/Si Structure”, Applied Surface Science 574 (2021) 151662, https://doi.org/10.1016/j.apsusc.2021.151662 (2021)
  17. Anhua Dong, Ke Chang, Renzhi Wang, Diyuan Zheng, Hui Wang*, “Modulation of optical switching characteristics in MoS2/HfO2/p-Si structures”, Appl. Phys. Lett. 117, 072104 (2020); https://doi.org/10.1063/5.0017768
  18. Xinyuan Dong, Diyuan Zheng, Meng Yuan, Yiru Niu, Binbin Liu, and Hui Wang*, “Laser-Induced Abnormal Cryogenic Magnetoresistance Effect in a Corbino Disk”, Physical Review Applied 13, 064050 (2020), DOI: 10.1103/PhysRevApplied.13.064050 (2020)
  19. Chunlian Mei, Shuai Liu, Anhua Dong, Xu Huang, Chongqi Yu, and Hui Wang*, “Non-equipotential effect observed on the surface of Ti/Si under uniform illumination”, New J. Phys. 22 (2020) 063027; https://doi.org/10.1088/1367-2630/ab8e14 (2020)
  20. Meng Yuan, Xinyuan Dong, Yiru Niu, Binbin Liu, Xinyue Chen, Diyuan Zheng, Anhua Dong, and Hui Wang*, “Improved Uniformity in Resistive Switching Behaviors by Embedding Cu Nanodots”, Nanotechnology 31 (2020) 405301, https://doi.org/10.1088/1361-6528/ab9a73 (2020)
  21. Diyuan Zheng, Xinyuan Dong, Jing Lu, Anhua Dong, Yiru Niu, and Hui Wang*, “Laser-Tuned Large Photo Hall Effect in p‑Type Silicon Based on Surface States”, ACS Appl. Electron. Mater. 2020, 2, 906−912 (2020) Front Cover
  22. Anhua Dong, Yihui Lai, Shuai Liu, and Hui Wang*, “Position-Sensitive and High-Performance Photodetection Observed in Carbon NanoFilm Based on Silicon Carbide”, ACS Appl. Electron. Mater. 2019, 1, 1924−1928 (2019)
  23. Anhua Dong and Hui Wang*, “Lateral Photovoltaic Effect and Photo-Induced Resistance Effect in Nanoscale Metal-Semiconductor Systems”, Annalen der Physik (Ann. Phys. (Berlin)) 2019, 1800440; DOI: 10.1002/andp.201800440 (2019) Invited Review Article
  24. Anhua Dong, Zhenghan Pei, Junjie Yuan, Shengtao Qian, Junzhe Tao, and Hui Wang*, “High sensitivity Si-based photodetection with nanoscale protective layer based on interface states”, 2019 Nanotechnology 30 375705 (2019)
  25. Xinyuan Dong, Diyuan Zheng, and Hui Wang*, “Laser triggered large magnetoresistance change observed in Corbino disk of Cu/SiO2/Si”, Adv. Electron. Mater. 2019, 1800844; DOI: 10.1002/aelm.201800844 (2019)
  26. Zhikai Gan, Bugao Zou, Peiqi Zhou, Xu Huang, Chunlian Mei and Hui Wang*, “High voltage endurance and switchable resistance effect observed in nanoscale copper groove structure”, Nanotechnology 30 (2019) 175201; DOI: 10.1088/1361-6528/aaff9a (2019)
  27. Anhua Dong, Jing Lu, Shuai Liu, Zhikai Gan, Peiqi Zhou, and Hui Wang*,  “Laser tuned large position-dependent tunneling detection dominated by interface states in silicon based oxide-semiconductor structure”, Optics Express, Volume: 27 Issue: 2 Pages: 743-752 Published: JAN 21 2019,  DOI: 10.1364/OE.27.000743 (2019)
  28. Xu Huang, Kang'an Jiang, Yiru Niu, Renzhi Wang, Diyuan Zheng, Anhua Dong, Xinyuan Dong, Chunlian Mei, Jing Lu, Shuai Liu, Zhikai Gan, Ni Zhong, and Hui Wang*, “Configurable Ultra-Low Operating Voltage Resistive Switching between Bipolar and Threshold Behaviors for Ag/TaOx/Pt Structures”, Appl. Phys. Lett. 113, 112103 (2018); doi: 10.1063/1.5047925 (2018)
  29. Zhikai Gan, Peiqi Zhou, Anhua Dong, Diyuan Zheng, and Hui Wang*, “A Laser and Electric Pulse Modulated Nonvolatile Photoelectric Response in Nanoscale Copper Dusted Metal-Oxide-Semiconductor Structures”, Adv. Electron. Mater. 2018, 1800234, DOI: 10.1002/aelm.201800234 (2018); Highlighted by: http://www.materialsviewschina.com/2018/09/30272/ (Cover paper)
  30. Shuai Liu, Xin Xie, Chunlian Mei, Quanyi Hu, Jianyang Wang, Qi Zhang, and Hui Wang*, “Electric-induced nonvolatile enhancement of lateral photovoltaic effect observed in Chromium nanofilm”, IEEE Electron Device Letters, VOL. 39, NO. 9, SEPTEMBER 2018, DOI: 10.1109/LED.2018.2857563 (2018) (Editor's Pick)
  31. Chunlian Mei, Jiaren Zou, Xu Huang, Bugao Zou, Peiqi Zhou, Zhikai Gan, Jieqiong Hu, Qian Zhang, and Hui Wang*, “High sensitive position-dependent photodetection observed in Cu-covered Si nanopyramids”, Nanotechnology 29, 205203 (2018), https://doi.org/10.1088/1361-6528/aab3f9 (2018)
  32. Bowei Zhou, Zhikai Gan, Anhua Dong, Sipei Wang, and Hui Wang*, “Sensitive Photodetection Based on the Surface States of P-type Silicon”, IEEE Electron Device Letter, VOL. 39, NO. 2 (2018); DOI: 10.1109/LED.2017.2784835 (2018)
  33. Kehui Wang, Meizhen Huang, Jie Chen, Lulu Lin, Lili Kong, Xi Liu, Hui Wang, Mengshi Lin, “A “Drop-wipe-test” SERS Method for Rapid Detection of Pesticide Residues in Fruits”, Journal of Raman Spectroscopy 49, 3 Pages: 493-498 Published: MAR 2018; DOI: 10.1002/jrs.5308 (2018)
  34. Chunlian Mei, Shuai Liu, Xu Huang, Zhikai Gan, Peiqi Zhou, Hui Wang*, “Localized Surface Plasmon Induced Position-Sensitive Photodetection in Silicon-Nanowire-Modified Ag/Si”, Small 13, 1701726 (2017); DOI: 10.1002/smll.201701726 (Cover paper, 2017)
  35. Xu Huang, Chunlian Mei, Zhikai Gan, Peiqi Zhou, and Hui Wang*, “Lateral photovoltaic effect in p-type silicon induced by surface states”, Appl. Phys. Lett. 110, 121103; doi: 10.1063/1.4978902 (2017)
  36. Zhikai Gan, Peiqi Zhou, Xu Huang, Chunlian Mei, and Hui Wang*, “Dual modulated lateral photo-resistance effect observed on silicon based discontinuous copper film”, Advanced Electronic Materials, Volume 3, Issue 12; DOI: 10.1002/aelm.201700293 (2017)
  37. Qian Zhang, Jieqiong Hu, Diyuan Zheng, Anhua Dong and Hui Wang*, “Magnetically tuned photoelectric response observed in nanoscale Co-SiO2-Si structures”, Nanotechnology, Volume: 28, Issue: 43, Published: 2017-Aug-14, DOI: 10.1088/1361-6528/aa85ff  (2017)
  38. Jieqiong Hu, Qian Zhang, Peiqi Zhou, Chunlian Mei, Xu Huang, Anhua Dong, Diyuan Zheng, and Hui Wang*, “Sensitive Photoelectric Response to Magnetic Field in p-Type Silicon-Based Structures”, IEEE Photonics Technology Letters, VOL. 29, NO. 21, NOVEMBER 1, 2017, DOI: 10.1109/LPT.2017.2753405 (2017)
  39. Z. K. Gan, P. Q. Zhou, X. Huang, C. L. Mei, J. Q. Hu and H. Wang*, “Nonvolatile resistance effect modulated by pulse with laser observed in nano-carbon film”, IEEE Electron Device Letters, Volume: 38 Issue: 5 Pages: 560-3 (2017)
  40. Bugao Zou, Peiqi Zhou, Jiaren Zou, Zhikai Gan, Chunlian Mei and Hui Wang*, “Using laser to trigger a large positive magnetoresistive effect in nonmagnetic Si-based metal-oxide-semiconductor structure”, Appl. Phys. Lett. Volume: 111, Issue: 24, 241103 (2017)
  41. Jing Lu, Xinglong Tu, Guilin Yin, Hui Wang*, and Dannong He, “A spot laser modulated resistance switching effect observed on n-type Mn-doped ZnO/SiO2/Si structure”, Scientific Reports 7, 15221, DOI:10.1038/s41598-017-15556-6 (2017)
  42. Diyuan Zheng, Chongqi Yu, Qian Zhang, and Hui Wang*, “Evaluating nanoscale ultra-thin metal films by means of lateral photovoltaic effect in metal-semiconductor structure”, Nanotechnology, Volume: 28, Issue: 50, https://doi.org/10.1088/1361-6528/aa97f5  (2017).
  43. Peiqi Zhou, Zhikai Gan, Xu Huang, Chunlian Mei, Yuxing Xia & Hui Wang*, “Size-dependent magnetic tuning of lateral photovoltaic effect in nonmagnetic Si-based Schottky junctions”, Scientific Reports, Volume: 7, Pages: 46377 (2017)
  44. Huang Xu, Chunlian Mei, Jieqiong Hu, Diyuan Zheng, Gan Zhikai, Zhou Peiqi, and Wang Hui*, “Potential superiority of p-type silicon based MOS structures over n-type for lateral photovoltaic effects”, IEEE Electron Device Letters, Volume 37, Issue 8, DOI 10.1109/LED.2016.2577700 (2016)
  45. Zhou Peiqi, Gan Zhikai, Huang Xu, and Wang Hui*, “Nonvolatile and tunable switching of lateral photo-voltage triggered by laser and electric pulse in metal dusted metal-oxide-semiconductor structures”, Scientific Reports, Volume: 6 Pages: 32015  (2016)
  46. Zhikai GanBiao ZhangPeiqi ZhouXu HuangChunlian Mei and Hui Wang*, “Using laser to modulate a linear resistance change in Cu2O/Si heteroepitaxial junction”, Appl. Phys. Lett. 109, 031106; http://dx.doi.org/10.1063/1.4959549  (2016)
  47. Zhang Ke, Wang Hui*, Gan Zhikai, et al., “Localized surface plasmon resonances dominated giant lateral photovoltaic effect observed in ZnO/Ag/Si nanostructure”, Scientific Reports, Volume: 6, Pages: 22906, Published: MAR 11 2016 (2016)
  48. Gan Zhikai; Zhou Peiqi, Huang Xu, Wang Hui*, et al., “Using electric pulse and laser to trigger a sharp and nonvolatile change of lateral photovoltage in nano-carbon film”, Applied Physics Letters, Volume: 108, Issue: 13, Published: MAR 28 2016 
    DOI: 10.1063/1.4945451 (2016) 
  49. Liu Shuai, Huang Meizhen, Yao Yanjie, and Wang Hui*, “Light-Induced Resistance Effect Observed in Nano Au Films Covered Two-Dimensional Colloidal Crystals”, ACS Applied Materials & Interfaces, Volume: 7, Issue: 35 Pages: 19536-19540, DOI: 10.1021/acsami.5b05603 (2015)
  50. Xie Xin, Liu Shuai, Huang Meizhen, and Wang, Hui*, “Magnetically modulated laser-induced resistance effect observed in Metal-Oxide-Semiconductor structure of Cr/SiO2/Si”, Optics Express, Volume: 23, Issue: 19, Pages: 24290-5, DOI: 10.1364/OE.23.024290 (2015) 
  51. Zhang Biao, Du Liang, and Wang Hui*, “Bias-assisted improved lateral photovoltaic effect observed in Cu2O nano-films”, Optics Express, Volume: 22, Issue: 2, Pages: 1661-1666, DOI: 10.1364/OE.22.001661 (2014)
  52. Liu Shuai, Xie Xin, and Wang Hui*, “Lateral photovoltaic effect and electron transport observed in Cr nano-film”, Optics Express, Volume: 22, Issue: 10, Pages: 11627-11632 (2014) 
  53. Liu Shuai, Yao Yanjie, and Wang Hui*, “Lateral photovoltaic effect observed in nano Au film covered two-dimensional colloidal crystals”, Applied Physics Letters, Volume: 104, Issue: 11, (2014)
  54. Jing Lu, Zheng Li, Guilin Yin, Meiying Ge, Dannong He, and Hui Wang*, “Lateral photovoltaic effect co-observed with unipolar resistive switching behavior in Cu-doped ZnO film”, Journal of Applied Physics 116, 123102 (2014); doi: 10.1063/1.4896366
  55. Jing Lu and Hui Wang*, “Improved lateral photovoltaic effect of Ti and carbon films by interface modification with single-walled carbon nanotubes”, Journal of Applied Physics 115, 033105 (2014); doi: 10.1063/1.4862398
  56. S. Liu, P. Cheng, and H. Wang*, “Bipolar resistance effect observed in CdSe quantum-dots dominated structure of Zn/CdSe/Si”, Opt. Letters 37, No. 11, 1814-1816 (2012) 
  57. Jing Lu and H. Wang*, “Significant infrared lateral photovoltaic effect in Mn-doped ZnO diluted magnetic semiconducting film”, Optics Express, Vol. 20, Issue 19, pp. 21552-21557 (2012)
  58. S. Liu, C. Q. Yu, and H. Wang*, “Colossal lateral photovoltaic effect observed in metal-oxide-semiconductor structure of Ti/TiO2/Si”, IEEE Electron Device Letters, Volume 33, Issue: 3, 414 - 416 (2012)
  59. T. Lan, S. Liu, and H. Wang*, “Enhanced lateral photovoltaic effect observed in CdSe quantum dots embedded structure of Zn/CdSe/Si”, Opt. Letters 36, No. 1, 25-27 (2011).
  60. L. Du, and H. Wang*, “Large irreversible lateral photovoltaic effect in Cu2O/Si heteroepitaxial junction”, IEEE Electron Device Letters, VOL. 32, NO. 4, 539-541 (2011)
  61. Jing Lu and H. Wang*, “Large lateral photovoltaic effect observed in nano Al-doped ZnO structures”, Opt. Express, Vol. 19, No. 15, 13806 (2011)
  62. C. Q. Yu and H. Wang*, “Light-induced bipolar-resistance effect based on metal-oxide-semiconductor structures of Ti/SiO2/Si”, Advanced Materials 22, 966-970 (2010). Highlighted by: Materialsviews.com and Materialsviews China
  63. C. Q. Yu and H. Wang*, “Large near-infrared lateral photovoltaic effect observed in Co/Si metal-semiconductor structures”, Appl. Phys. Lett. 96, 171102 (2010)
  64.  L. Du, and H. Wang*, “Infrared laser induced lateral photovoltaic effect observed in Cu2O nanoscale film”, Opt. Express 18, 9113 (2010).
  65. C. Q. Yu and H. Wang*, “Bias-induced offset effect overlapped on bipolar-resistance effect based on Co/SiO2/Si structure”, Appl. Phys. Lett. 97, 041105 (2010).
  66. C. Q. Yu and H. Wang*, “Large lateral photovoltaic effect in metal-(oxide-) semiconductor structures”, Sensors 10, 10155-10180 (2010), Invited Review Article.
  67. C. Q. Yu and H. Wang*, “Tunable oscillating lateral photovoltaic effect in surface-patterned metal-semiconductor structures”, Opt. Express 18, 21777 (2010).
  68. C. Q. Yu and H. Wang*, “Precise detection of two-dimensional displacement based on nonlinear lateral photovoltaic effect”, Opt. Letters 35, 2514-2516 (2010).
  69. C. Q. Yu and H. Wang*, “Improved metal-semiconductor position detector with oscillating lateral photovoltaic effect”, Opt. Letters 34, 3770-3772 (2009).
  70. C. Q. Yu, and H. Wang*, and Y. X. Xia, “Enhanced lateral photovoltaic effect in an improved oxide-metal-semiconductor structure of TiO2/Ti/Si”, Appl. Phys. Lett. 95, 263506 (2009).
  71. C. Q. Yu, and H. Wang*, S. Q. Xiao, and Y. X. Xia, “Direct observation of lateral photovoltaic effect in nano-metal-films”, Opt. Express 17, 21712 (2009).
  72. C. Q. Yu, and H. Wang*, and Y. X. Xia, “Giant lateral photovoltaic effect observed in TiO2 dusted metal-semiconductor structure of Ti/TiO2/Si”, Appl. Phys. Lett. 95, 141112 (2009).
  73. H. Wang*, S. Q. Xiao, C. Q. Yu, Y. X. Xia, Q. Y. Jin, and Z. H. Wang, “Correlation of magnetoresistance and lateral photovoltage in Co3Mn2O/SiO2/Si metal-oxide-semiconductor structure”, N. J. Phys. 10, 093006 (2008).
  74. S. Q. Xiao, H. Wang*, C. Q. Yu, Y. X. Xia, J. J. Lu, Q. Y. Jin, and Z. H. Wang, “A novel position-sensitive detector based on metal-oxide-semiconductor structures of Co-SiO2-Si”, N. J. Phys. 10, 033018 (2008).
  75. S. Q. Xiao, H. Wang*, Z. C. Zhao, Y. Z. Gu, Y. X. Xia and Z. H. Wang, “The Co-film-thickness dependent lateral photoeffect in Co-SiO2-Si metal-oxide-semiconductor structures”, Opt. Express 16, 3798 (2008).
  76. S. Q. Xiao, H. Wang*, Z. C. Zhao, Y. X. Xia and Z. H. Wang, Magnetic and transport properties in metal-oxide-semiconductor structures of Co3Mn2O/ SiO2/Si, J. Phys. D: Appl. Phys. 2008, 41, 045005.
  77. L. Z. Kong, H. Wang*, S. Q. Xiao, J. J. Lu, Y. X. Xia, G. J. Hu, N. Dai and Z. H. Wang, Integrated properties of large lateral photovoltage and positive magnetoresistance in Co/Mn/Co/c-Si structures, J. Phys. D: Appl. Phys. 2008, 41, 052003. Fast track communication
  78. S. Q. Xiao, H. Wang*, Z. C. Zhao and Y. X. Xia, Large lateral photoeffect observed in metal-semiconducotr junctions of CoxMnyO films and Si, J. Phys. D: Appl. Phys. 2007, 40, 5580.
  79. S. Q. Xiao, H. Wang*, Z. C. Zhao, Y. Z. Gu, Y. X. Xia and Z. H. Wang, Lateral photovoltaic effect and magnetoresistance observed in Co-SiO2-Si metal-oxide-semiconductor structures, J. Phys. D: Appl. Phys. 2007, 40, 6926.
  80. Z. C. Zhao, H. Wang*, S. Q. Xiao, Y. X. Xia, John A. McGuire, Y. Ren, Q. Y. Jin and T. R. Gao, Anomalous hysteresis loops measured by the magneto-optical Kerr effect in a Co/NiO/Cu/Co/Cu structure, J. Appl. Phys. 2007, 101, 016105.
  81. Z. C. Zhao, H. Wang*, S. Q. Xiao, D. Huang, Y. Z. Gu, Y. X. Xia, Q. Y. Jin, C. L. Zha, and X. S. Wu, Inverse magnetoresistance caused by nano-nitride-layer doping at the inner interfaces in the sandwich of Co/Cu/Co, J. Appl. Phys. 2006, 99, 08R507. Selected for May 15, 2006 issue of Virtual Journal of Nanoscale Science & Technology

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