{"id":23,"date":"2014-01-24T11:11:11","date_gmt":"2014-01-24T16:11:11","guid":{"rendered":"https:\/\/coefs.charlotte.edu\/yzhang47\/?page_id=23"},"modified":"2026-03-03T13:30:27","modified_gmt":"2026-03-03T18:30:27","slug":"publications","status":"publish","type":"page","link":"https:\/\/coefs.charlotte.edu\/yzhang47\/publications\/","title":{"rendered":"Journal Publications"},"content":{"rendered":"
    \n
  1. Rui Mei, Yi-Zhou Wang, Xue-Lu Liu, Thomas A. Schmedake, Yong Zhang<\/strong>, and Ping-Heng Tan, Giant Exciton Binding Energy in a Three-Dimensional Organic\u2212Inorganic Hybrid Semiconductor<\/em>, J. Am. Chem. Soc. 147, 4286 (2025). (pdf<\/a>)<\/li>\n
  2. Jing Li, Jiangtao Guo, Yong Zhang<\/strong>, Ang Zhang, Wen Yang, Xiaobo Feng, Yunbo Zhang, Peizhi Yang, Epitaxial growth of aligned MoS2 via One-step CVD method for realizing the ultrasonic field-driven direct current nanogenerators, Energy Materials 5, 500138 (2025). (pdf<\/a>)<\/li>\n
  3. Jiangtao Guo, Liangfei Duan, Wen Yang, Qin Wang, Xiyun Feng, Yunbo Zhang, Yong Zhang<\/strong>, Zhong Lin Wang, and Peizhi Yang, Flexible Triboelectric Nanogenerator Arrays for Energy Harvesting and Direct Current Output via Solid-Liquid-Gas Interfaces Involving Liquid Metals, Adv. Funct. Mat. e10233 (2025). (pdf<\/a>)<\/li>\n
  4. Yong Zhang<\/strong>, Optical Spectroscopy Methods for Determining Semiconductor Bandgaps, Chinese Journal of Luminescence 46, 1271 (2025). (pdf<\/a>)<\/li>\n
  5. Nenad Vrucinic and Yong Zhang<\/strong>, Reexamination of Gain Theory for Intrinsic Photoconductive Devices, Photonics 12, 523 (2025). (pdf<\/a>)<\/li>\n
  6. Julianne C. Miller, Yizhou Wang, Yong Zhang<\/strong>, Thomas A. Schmedake, Matthew D. McCluskey, Phase transitions of \u03b2-ZnTe(en)0.5 under hydrostatic pressure<\/em>, AIP Advances 15, 045308 (2025). (pdf<\/a>)<\/li>\n
  7. Jiangtao Guo, Liangfei Duan, Wen Yang, Qin Wang, Yunbo Zhang, Yong Zhang<\/strong>, Zhong Lin Wang, and Peizhi Yang, Multiphase soft metal enabled high-performance fabric-based wearable energy harvesting<\/em>, Nano Energy 131, Part B, 110305 (2024). (pdf<\/a>)<\/li>\n
  8. Qiming Yang, Fuli Qian, Guoru Gou, Tilu Wang, Yu Duan, Chaoyu Lu, Guanghua Wang, Liangfei Duan, Wen Yang, Yong Zhang<\/strong>, and Peizhi Yang, Performance optimization of green tandem OLEDs with double emitting layers<\/em>, J. Lumin. 275, 120798 (2024). (pdf<\/a>)<\/li>\n
  9. Tao Wang, Jiangtao Guo, Yong Zhang<\/strong>, Wen Yang, Xiaobo Feng, Jing Li, Peizhi Yang, Synthesis of High-Quality Monolayer MoS2 via CVD Upstream Deposition Strategy for Charge Capture and Collection<\/em>, Cryst. Growth Des. 24, 2755 (2024). (pdf<\/a>)<\/li>\n
  10. Daniel P. Furr, Anteneh A. Tsegaye, Madeline R. Kern, Tang Ye, Gunnar Olson, Yong Zhang<\/strong>, and Susan R. Trammell, Light-assisted drying (LAD) for anhydrous preservation of biologics: processing sample volumes comparable to a therapeutic dose<\/em>, Engineering Reports https:\/\/doi.org\/10.1002\/eng2.12889 (2024).<\/li>\n
  11. Mingfu Fu, Jiabao Li, Wen Yang, Yong Zhang<\/strong>, and Peizhi Yang, Recent progress on degradation mechanism and antioxidation of low-dimensional black phosphorus<\/em>, 2D Mater. 11, 022001 (2024). 10.1088\/2053-1583\/ad1ae7 (pdf<\/a>)<\/li>\n
  12. Liqin Su, Yifei Yu, Linyou Cao, and Yong Zhang<\/strong>, Correlative spectroscopic investigations of the mechanisms of inhomogeneity in CVD-grown monolayer WS2<\/em>, SCIENCE CHINA Materials, 66, 3949 (2023). https:\/\/doi.org\/10.1007\/s40843-023-2616-x. (pdf<\/a>)<\/li>\n
  13. Andrew Orozco Cabral, Pei-Chih Lee, Shangping Wang, Yizhou Wang, Yong Zhang<\/strong>, Pierre Comizzoli, and Gloria D. Elliott, Effect of choline salt addition to trehalose solution for long-term storage of dried and viable nuclei from fully-grown oocytes<\/em>, Bioengineering 10, 1000 (2023). (pdf<\/a>)<\/li>\n
  14. \u00a0Esha Thakur, Tang Ye, Yong Zhang,<\/strong>\u00a0HaiTao Zhang, Michael Walter, A Quantitative Analysis of the Effect of Various Growth Parameters on the Lithography-Free Grown Si Microwires for Photodetector Applications<\/em>, Silicon (2023).<\/li>\n
  15. Tang Ye, Yi-Yang Sun*, Margaret Kocherga, Andrei Nesmelov, Thomas A. Schmedake, and Yong Zhang<\/strong>, Degradation kinetics of organic\u2013inorganic hybrid materials from micro-Raman spectroscopy and density-functional theory: the case of \u00df-ZnTe(en)0.5<\/em>, Small, 2302935 (2023). (pdf<\/a>)<\/li>\n
  16. \u00a0Hanlun Xu, Yao Wang, Jinbo Shen, Ziyang Ren, Jiaqi Zhu, Yansong Chen, Mengjuan Liu, Yihui Zhai, Yunhao Lu, Yong Zhang<\/strong>, Shiyao Zhu, Sihan Zhao, Huizhen Wu, Applying 2DEG in High-Performance Mid-Infrared Photodetection<\/em>, Advanced Optical Materials, 2300602 (2023). (pdf<\/a>)<\/li>\n
  17. Ning-Gui Ma, Yong-Jia Zhang, He-Na Zhang, Hui-Min Mu, Yong Zhang<\/strong>, Xiao-Chun Wang, Fe4 cluster as the smallest 3D Fe cluster with unique quantum magnetic levitation effect on graphene<\/em>, Applied Surface Science 628, 157315 (2023). (pdf<\/a>)<\/li>\n
  18. Xiaoxiao Sun, Yong Zhang<\/strong>, Weikun Ge, Photo-induced Macro\/Mesoscopic Scale Ion Displacement in Mixed-Halide Perovskites: Ring Structures and Ionic Plasma Oscillations<\/em>, Light: Sci. & Appl. 11, 262 (2022). (pdf<\/a>,SI<\/a>)<\/li>\n
  19. Mingfu Fu, Wen Yang, Kaixiang Du, Jiabao Li, Yong Zhang<\/strong>, Shukang Deng, and Peizhi Yang, Fabrication of Doped Black Phosphorus Crystal by the Chemical Vapor Transport Method, Cryst. Growth Des. Cryst. 22, 7168 (2022). (pdf<\/a>)<\/li>\n
  20. Jose F. Castaneda, Jeong-Hyeok Im, Yucheng Liu, Shengzhong Liu, Nam-Gyu Park, and Yong Zhang<\/strong>, Domain Size, Temperature, and Time Dependence of Photodegradation in MAPbI3 Probed by Raman Spectroscopy<\/em>, ACS Energy Lett. (2022). (pdf<\/a>)<\/li>\n
  21. Fan Zhang, Jose F. Castaneda, Timothy H. Gfroerer, Daniel Friedman, Yong-Hang Zhang, Mark W. Wanlass, and Yong Zhang<\/strong>, An all optical approach for comprehensive in-operando analysis of radiative and nonradiative recombination processes in semiconductors<\/em>, Light: Sci. & Appl. 11, 137 (2022). (pdf<\/a>)<\/li>\n
  22. Yong Zhang<\/strong>, II-VI based organic-inorganic hybrid structures: brief review and perspective<\/em>, J. Lumin. 248, 118936 (2022). (pdf<\/a>)<\/li>\n
  23. Cao Cheng, Chu Chen, Hongyan Zhang, and Yong Zhang<\/strong>, Preparation and study of ammonia gas sensor based on ZnO\/CuO heterojunction with high performance at room temperature<\/em>, Materials Science in Semiconductor Processing 146, 106700 (2022). (pdf<\/a>)<\/li>\n
  24. Yong Zhang<\/strong> and D. J. Smith, Comprehensive, in operando, and correlative investigation of defects and their impact on device performance<\/em>, J. Semicond. 43, 041102 (2022). (pdf<\/a>)<\/li>\n
  25. Chen Ming, Zhizhong Chen, Fan Zhang, Shuiping Gong, Xiaowei Wu, Jie Jiang, Tang Ye, Qing Xu, Ke Yang, Liang Wang, Xun Cao, Songwang Yang, Shengbai Zhang, Yong Zhang<\/strong>, Jian Shi, and Yi-Yang Sun, Mixed chalcogenide-halides for stable, lead-free and defect-tolerant photovoltaics: computational screening and experimental validation of CuBiSCl2 with ideal band gap<\/em>, Adv. Fun. Mat. https:\/\/doi.org\/10.1002\/adfm.202112682 (2022). (pdf<\/a>)<\/li>\n
  26. Zhiqiang Liu, Fang Ren, Bingyao Liu, Yue Yin, Shuo Zhang, Meng Liang, Zhipeng Dou, Zhetong Liu, Shenyuan Yang, Jianchang Yan, Tongbo Wei, Xiaoyan Yi, Chaoxing Wu, Tailiang Guo, Junxi Wang, Yong Zhang<\/strong>, Jinmin Li, Peng Gao, Atomic-Scale Mechanism of Spontaneous Polarity Inversion in AlN on Nonpolar Sapphire Substrate Grown by MOCVD<\/em>, Small 18, 202200057 (2022). (pdf<\/a>)<\/li>\n
  27. Adam W. Earnhardt, Kevin Boyle, Tyler Adams, Michael G. Walter, Yizhou Wang, Yong Zhang<\/strong>, Adesola Adeyemi, Jon Merkest, Askhat N. Bimukhanov, Anuar A. Aldongarov, Colin D. McMillen, Thomas A. Schmedake, Bipolar charge transport in a robust hexacoordinate organosilane<\/em>, Journal of Organometallic Chemistry 961, 122208 (2022). (pdf<\/a>)<\/li>\n
  28. Fang Ren, Bingyao Liu, Zhaolong Chen, Yue Yin, Jingyu Sun, Shuo Zhang, Bei Jiang, Bingzhi Liu, Zhetong Liu, Jianwei Wang, Meng Liang, Guodong Yuan, Jianchang Yan, Tongbo Wei1, Xiaoyan Yi, Junxi Wang, Yong Zhang<\/strong>, Jinmin Li, Peng Gao, Zhongfan Liu, and Zhiqiang Liu, Van der Waals epitaxy of nearly single-crystalline nitride films on amorphous graphene-glass wafer<\/em>, Sci. Adv. 7, eabf5011 (2021). (pdf<\/a>)<\/li>\n
  29. Antardipan Pal, Yong Zhang<\/strong>, and Dennis D. Yau, Monolithic and single-functional-unit level integration of electronic and photonic elements: FET-LET hybrid 6T SRAM<\/em>, Photon. Res. 9, 1369 (2021). (pdf<\/a>)<\/li>\n
  30. Tang Ye, Margaret Kocherga, Yi-Yang Sun, Andrei Nesmelov, Fan Zhang, Wanseok Oh, Xiao-Ying Huang, Jing Li, Damian Beasock, Daniel S. Jones, Thomas A. Schmedake, and Yong Zhang<\/strong>, II\u2212VI Organic\u2212Inorganic Hybrid Nanostructures with Greatly Enhanced Optoelectronic Properties, Perfectly Ordered Structures, and Shelf Stability of Over 15 Years<\/em>, ACS Nano 15, 10565 (2021). (pdf<\/a>,SI<\/a>)<\/li>\n
  31. Qiong Chen, Brandon S. McKeon, Sunny Y. Zhang, Fan Zhang, Changkui Hu, Timothy H. Gfroerer, Mark W. Wanlass, David J. Smith, and Yong Zhang<\/strong>, Impact of individual structural defects in GaAs solar cells: a correlative and in operando investigation of signatures, structures, and effects<\/em>, Adv. Opt. Mat. 9, 2001487 (2020). (pdf<\/a>,supp<\/a>)<\/li>\n
  32. Bin Li, Guofeng Zhang, Yong Zhang<\/strong>, Changgang Yang, Wenli Guo, Yonggang Peng, Ruiyun Chen, Chengbing Qin, Yan Gao, Jianyong Hu, Ruixiang Wu, Jie Ma, Haizheng Zhong, Yujun Zheng, Liantuan Xiao, and Suotang Jia, Biexciton Dynamics in Single Colloidal CdSe Quantum Dots<\/em>, J. Phys. Chem. Lett. 11, 10425 (2020). (pdf<\/a>)<\/li>\n
  33. Zhi Zheng, Xiaotao Zu, Yong Zhang<\/strong>, Weilie Zhou, Rational Design of Type-II Nano-heterojunctions for Nanoscale Optoelectronics, Mat. Today Phys. 15, 100262 (2020). (pdf)<\/a><\/li>\n
  34. Yan Chen, Yong Zhang<\/strong>, Hongyan Zhang, Chu Chen, Design and evaluation of Cu-modified ZnO microspheres as a high performance formaldehyde sensor based on density functional theory, Applied Surface Science 532, 147446 (2020). (pdf)<\/a><\/li>\n
  35. Shangping Wang, Pei-Chih Lee, Amanda Elsayed, Fan Zhang, Yong Zhang<\/strong>, Pierre Comizzoli, and Gloria D. Elliott, Preserving the Female Genome in Trehalose Glass: The Relationship Between Moisture Content and DNA Damage in Feline Germinal Vesicles<\/em>, Cellular and Molecular Bioengineering 14, 101 (2021). (pdf)<\/a><\/li>\n
  36. Keming Ren, Dan Han, Tang Ye, Yong Zhang<\/strong>, and Absefreke Ebong, The impact of semimetal nanoparticles in the thick glass layer at the Ag\/Si interface of the fire through dielectric contact on Si solar cells<\/em>, J. Appl. Phys. 127, 225302 (2020). (pdf<\/a>)<\/li>\n
  37. Jun Chai, Zewei Shao, Han Wang, Chen Ming, Wanseok Oh, Tang Ye, Yong Zhang<\/strong>,
    \nXun Cao, Ping Jin, Shengbai Zhang, and Yi-Yang Sun, Ultrafast processes in photochromic material YHxOy studied by excited-state density functional theory simulation<\/em>, Science China Materials 63, 1579(2020). (    pdf<\/a>)<\/li>\n
  38. Qiming Yang, Wen Yang, Yong Zhang<\/strong>, Wen Ge, Xin Yang, and Peizhi Yang, Precise Surface State Control of Carbon Quantum Dots to Enhance Charge Extraction for Solar Cells<\/em>, Nanomaterials10, 460 (2020). (pdf<\/a>)<\/li>\n
  39. Sai Li, Yong Zhang<\/strong>, Deiwei Yang, Wen Yang, Xiaobo Chen, Hengli Zhao, and Peizhi Yang, Structure and Optical Properties of HfO2 Films on Si (100) Substrates Prepared by ALD at Different Temperatures, Physica B 584, 412065 (2020). (pdf)<\/a><\/li>\n
  40. Fan Zhang, Jose F. Castaneda, Shangshang Chen,Wuqiang Wu, Michael J. DiNezza, Maxwell Lassise, Wanyi Nie, AdityaMohite, Yucheng Liu, Shengzhong Liu, Daniel Friedman, Henan Liu, Qiong Chen, Yong-Hang Zhang, Jinsong Huang, and Yong Zhang<\/strong>, Comparative studies of optoelectrical properties of prominent PV materials: halide perovskite, CdTe, and GaAs<\/em>, Materials Today 36, 18 (2020). (pdf<\/a>,supp<\/a>)<\/li>\n
  41. Yingyan Yi, Jason K. Marmon, Yuanping Chen, Fan Zhang, Tao Sheng, Priyalal S. Wijewarnasuriya, Haitao Zhang, and Yong Zhang<\/strong>, Intrinsic exciton-phonon coupling and tuning in ZnTe nanowires probed by resonant Raman scattering<\/em>,<\/span>\u00a0 Phys. Rev. Appl. (Letter) 13, 011001 (2020). (pdf<\/a>)<\/li>\n
  42. Liqin Su, Layne Bradley, Yiling Yu, Yifei Yu, Linyou Cao, Yiping Zhao, Yong Zhang<\/strong>, Surface-enhanced Raman scattering of monolayer transition metal dichalcogenides on Ag nanorod arrays<\/em>, Optics Letters 44, 5493 (2019). (pdf<\/a>)<\/li>\n
  43. Yong Zhang<\/strong>, Applications of Huang\u2013Rhys theory in semiconductor optical spectroscopy<\/em>, J. Semicond. 40, 091102 (2019). (pdf<\/a>)<\/li>\n
  44. Hong-Xia Yu, Hui-Min Mu, Dong-Ran Zhu, Yong Zhang<\/strong>, Xiao-Chun Wang, and Sean Xiao-An Zhang, DFT study on the oxygen titanium porphyrin as sustainable cyclic catalyst for water splitting, Inter. J. Hydrogen Energy 44, 19920 (2019). (pdf<\/a>)<\/li>\n
  45. Naili Yue, Joshua Myers, Liqin Su, Wentao Wang, Fude Liu, Raphael Tsu, Yan Zhuang, and Yong Zhang<\/strong>, Growth of oxidation-resistive silicene-like thin flakes and Si nanostructures on graphene<\/em>, J. Semicond. 40, 062001 (2019). (pdf)<\/a><\/li>\n
  46. T. H. Gfroerer, Ruiming Chen, Grace Watt, Zhiqiang Liu, and Yong Zhang<\/strong>, Impact of superlinear defect-related recombination on LED performance at low injection<\/em>, J. Appl. Phys. 125, 204502 (2019). (pdf)<\/a><\/li>\n
  47. Margaret Kocherga, Jose Castaneda, Michael G. Walter, Yong Zhang<\/strong>, Nemah-Allah Saleh, Le Wang, Daniel S. Jones, Jon Merkert, Bernadette Donovan-Merkert, Yanzeng Li, Tino Hofmann, and Thomas A. Schmedake, Si(bzimpy)2<\/sub> \u2013 a hexacoordinate silicon pincer complex for electron transport and electroluminescence<\/em>, ChemComm 54, 14073 (2018). (pdf<\/a>)<\/li>\n
  48. Yong Zhang<\/strong>, Electronic structures of impurities and point defects in semiconductors<\/em>, Chin. Phys. B 27, 117103 (2018). (pdf<\/a>)<\/li>\n
  49. Zhiqiang Liu, Xiaoyan Y, Liancheng Wang, Tongbo Wei1, Guodong Yuan, Jianchang Yan, Junxi Wang, Jinmin Li, Yi Shi, and Yong Zhang<\/strong>, Impurity resonant state p-doping layer for high-efficiency nitride-based light-emitting diodes<\/em>, Semicond. Sci. Technol. 33, 114004 (2018). (pdf<\/a>)<\/li>\n
  50. T. Park, Yong-Jing Guan, Zhi-Qiang Liu, and Yong Zhang<\/strong>, In Operando micro-Raman 3D thermometry with diffraction-limit spatial resolution for GaN-based light-emitting diodes<\/i>, Phys, Rev. Appl. 10, 034049 (2018). (pdf<\/a>)<\/li>\n
  51. \u00a0Changkui\u00a0 Hu, Qiong Chen, Fengxiang Chen, T.H. Gfroerer, M. W. Wanlass and Yong Zhang<\/strong>,<\/span> Overcoming Diffusion-related limitations in semiconductor defect imaging with phonon-plasmon coupled mode Raman scattering,\u00a0<\/i>Light: Science and Applications 7, 23 (2018).\u00a0(pdf)<\/a><\/li>\n
  52. <\/i>Henan Liu, Yong Zhang<\/strong>, Elizabeth H. Steenbergen, Shi Liu, Zhiyuan Lin, Yong-Hang Zhang,\u00a0Jeomoh Kim, Mi-Hee Ji, Theeradetch Detchprohm, Russell D. Dupuis, Jin K. Kim, Samuel D. Hawkins, and John F. Klem,\u00a0Raman scattering study of lattice vibrations in type II superlattice InAs\/InAs1-<\/sub><\/em>x<\/sub><\/em>Sb<\/em>x<\/sub><\/em>, Phys. Rev. Appl. 8, 034028 (2017).\u00a0(pdf)<\/a><\/li>\n
  53. Qiong Chen, Sergio Bernardi, and Yong Zhang<\/strong>,\u00a0Spatially Resolved Laser-Induced Modification Raman \u00a0Spectroscopy\u00a0for Probing the Microscopic Structural Variations\u00a0in the Quaternary Alloy Cu2ZnSnSe4<\/em>,\u00a0Phys. Rev. Appl. 8, 034008 (2017).\u00a0(pdf)<\/a><\/li>\n
  54. Lu-Si Zhao, Ying Wang, Chun-Ping Chen, Lin-Lin Liu, Hong-Xia Yu, Yong Zhang<\/strong>, Yi Chen, and Xiao-Chun Wang, Elastic, electronic and optical properties of novel stable pentagonal ZnO2 film for flexible display, Physica E: Low-dimensional Systems and Nanostructures 91, 82 (2017). (pdf<\/a>)<\/li>\n
  55. Liqin Su, Yifei Yu, Linyou Cao, and Yong Zhang<\/strong>, In Situ Monitoring of the Thermal-Annealing Effect in a Monolayer of MoS2<\/sub><\/em>, Phys. Rev. Appl. 7, 034009 (2017). (pdf)<\/a><\/li>\n
  56. S. Zhang, L. Q. Su, J. Kon, T. Gfroerer, M. W. Wanlass, and Y. Zhang<\/strong>, Kinetic energy dependence of carrier diffusion in a GaAs epilayer studied by wavelength selective PL imaging<\/em>, J. Lumin. 185, 200 (2017).\u00a0(pdf)<\/a><\/li>\n
  57. Xin Chen, Lei Xu, Lin-Lin Liu, Lu-Si Zhao, Chun-Ping Chen, Yong Zhang<\/strong>, Xiao-Chun Wang, Adsorption of formaldehyde molecule on the pristine and transition metal doped graphene: First-principles study<\/em>, Applied Surface Science 396, 1020 (2016).\u00a0(pdf)<\/a><\/li>\n
  58. Qiong Chen, Henan Liu, Hui-Seon Kim, Yucheng Liu, Mengjin Yang, Naili Yue, Gang Ren, Kai Zhu, Shengzhong Liu, Nam-Gyu Park, and Yong Zhang<\/strong>, Multiple-Stage Structure Transformation of Organic-Inorganic Hybrid Perovskite CH3<\/sub>NH3<\/sub>PbI3<\/sub>, Phys. Rev. X 6, 031042<\/em> (2016).(pdf<\/a>) Erratum:PHYSICAL REVIEW X 7, 019902 (2017) (pdf<\/a>)<\/li>\n
  59. Zhiqiang Liu, Yang Huang Xiaoyan Yi, Binglei Fu, Guodong Yuan, Junxi Wang, Jinmin Li, and Yong Zhang<\/strong>, Analysis of Photoluminescence Thermal Quenching: Guidance for the Design of Highly Effective p-type Doping of Nitrides<\/em>, Sci. Rep. 6: 32033 (2016).\u00a0(pdf)<\/a><\/li>\n
  60. Yifei Yu, Yiling Yu, Chao Xu, Yong-Qing Cai, Liqin Su, Yong Zhang<\/strong>, Yong-Wei Zhang, Kenan Gundogdu , and Linyou Cao, Engineering Substrate Interactions for High Luminescence Efficiency of Transition-Metal Dichalcogenide Monolayers<\/em>, Adv. Func. Mater. 26, 4733 (2016).\u00a0(pdf)<\/a><\/li>\n
  61. Jianwei Wang and Yong Zhang<\/strong>, Topologic connection between 2-D layered structures and 3-D diamond structures for conventional semiconductors<\/em>, Sci. Rep. 6: 24660 (2016).\u00a0(pdf)<\/a><\/li>\n
  62. Jason K. Marmon, Satish C. Rai, Kai Wang, Weilie Zhou, and Yong Zhang<\/strong>, Light-Effect Transistor (LET) with Multiple Independent Gating Controls for Optical Logic Gates and Optical Amplification<\/em>, Front. Phys. 4, 8 (2016).\u00a0(pdf)<\/a><\/li>\n
  63. Zhiqiang Liu, Xiaoyan Yi, Zhiguo Yu, Gongdong Yuan, Yang Liu, Junxi Wang, Jinmin Li, Na Lu, Ian Ferguson, Yong Zhang<\/strong>, Impurity Resonant States p-type Doping in Wide-Band-Gap Nitrides<\/em>, Sci. Rep. 6:19537 (2016).\u00a0(pdf)<\/a><\/li>\n
  64. Liqin Su and Yong Zhang<\/strong>, Temperature<\/em> coefficients of phonon frequencies and thermal conductivity in thin black phosphorus layers<\/em>, Appl. Phys. Letter 107, 071905 (2015). (pdf<\/a>) Supplementary Material:\u00a0(pdf)<\/a><\/li>\n
  65. Jianwei Wang, Yong Zhang<\/strong>, and Lin-Wang Wang, Systematic approach for simultaneously correcting the band-gap and p\u2212d separation errors of common cation III-V or II-VI binaries in density functional theory calculations within a local density approximation<\/em>, Phys. Rev. B 92, 045211 (2015).\u00a0(pdf)<\/a><\/li>\n
  66. Yue Lin, Yong Zhang<\/strong>, Ziquan Guo, Jihong Zhang, Weilin Huang, Yi-Jun Lu, Zhonghua Deng, Zhuguang Liu, and Yongge Cao, Defects dynamics during ageing cycles of InGaN blue light-emitting diodes revealed by evolution of external quantum efficiency \u2013 current dependence<\/em>, Opt. Express 23, a979 (2015).\u00a0(pdf)<\/a><\/li>\n
  67. Henan Liu, Naili Yue, Yong Zhang<\/strong>, Pengfei Qiao, Daniel Zuo, Ben Kesler, Shun Lien Chuang, Jae-Hyun Ryou, James D. Justice,4 and Russell Dupuis, Lattice vibration modes in type-II superlattice InAs\/GaSb with no-common-atom interface and overlapping vibration spectra<\/em>, Phys. Rev. B 91, 235317 (2015).\u00a0(pdf)<\/a><\/li>\n
  68. Satish C Rai, Kai Wang, Yong Ding, Jason K Marmon, Manish Bhatt, Yong Zhang<\/strong>, Weilie Zhou, Zhong Lin Wang, Piezo-Phototronic Effect Enhanced UV\/Visible Photodetector Based on Fully Wide Band Gap Type-II ZnO\/ZnS Core\/Shell Nanowire Array<\/em>, ACS Nano 9, 6419 (2015).\u00a0(pdf)<\/a><\/li>\n
  69. Bingpo Zhang, Ping Lu, Henan Liu, Lin Jiao, Zhenyu Ye, M. Jaime, F.F. Balakirev, Huiqiu Yuan, Huizhen Wu, Wei Pan, and Yong Zhang<\/strong>, Quantum Oscillations in a Two-Dimensional Electron Gas at the Rocksalt\/Zincblende Interface of PbTe\/CdTe (111) Heterostructures<\/em>, Nano Lett. 15, 4381 (2015).\u00a0(pdf)<\/a><\/li>\n
  70. Liqin Su, Yifei Yu, Linyou Cao, and Yong Zhang<\/strong>, Effects of substrate type and material-substrate bonding on high-temperature behavior of monolayer WS2<\/em>, Nano Research 8, 2686 (2015).\u00a0(pdf)<\/a><\/li>\n
  71. Fengxiang Chen, Yong Zhang<\/strong>, T. H. Gfroerer, A. N. Finger, and M. W. Wanlass, Spatial resolution verse data acquisition efficiency in mapping an inhomogeneous system with species diffusion<\/em>, Sci. Reps. 5, 10542 (2015).\u00a0(pdf)<\/a><\/li>\n
  72. Satish C. Rai, Kai Wang, Jiajun Chen, Jason K. Marmon, Manish Bhatt, Sarah Wozny, Yong Zhang<\/strong>, Weilie Zhou, Enhanced broad band photo-detection through piezo-phototronic effect in CdSe\/ZnTe core\/shell nanowire array<\/em>, Adv. Electron. Mat. 1, 1400050 (2015).\u00a0(pdf)<\/a><\/li>\n
  73. L. C. Lew Yan Voon, A. Lopez Bezanilla, J. Wang, Y. Zhang<\/strong>, and M. Willatzen, Effective Hamiltonians for phosphorene and silicene<\/em>, N. J. Phys. 17, 025004 (2015).\u00a0(pdf)<\/a><\/li>\n
  74. Yifei Yu, Shi Hu, Liqin Su, Lujun Huang, Yi Liu, Zhenghe Jin, Alexander A. Purezky, David B. Geohegan, Ki Wook Kim, Yong Zhang<\/strong>, Linyou Cao, Equally Efficient Interlayer Exciton Relaxation and Improved Absorption in Epitaxial and Non-epitaxial MoS2\/WS2 Heterostructures,<\/em> Nano Lett. 15, 486 (2015).\u00a0(pdf)<\/a><\/li>\n
  75. Jianwei Wang and Yong Zhang<\/strong>, Band-gap corrected density functional theory calculations for InAs\/GaSb type II superlattices<\/em>, J. Appl. Phys. 116, 214301 (2014).\u00a0(pdf)<\/a><\/li>\n
  76. Tao Sheng, <\/span><\/sub>Baobao Cao, Yong Zhang<\/strong>, and Haitao Zhang, New Growth Modes of Molybdenum Oxide Layered 1D Structures Using Alternative Catalysts: Transverse Mode vs. Axial Mode<\/em>, CrystEngComm 17, 1139 (2014).\u00a0(pdf)<\/a><\/li>\n
  77. Alper Gurarslan, Yifei Yu, Liqin Su, Yiling Yu, Francisco Suarez, Shanshan Yao, Yong Zhu, Mehmet Ozt\u00fcrk, Yong Zhang<\/strong>, Linyou Cao, Surface Energy-Assisted Perfect Transfer of Centimeter-Scale Monolayer and Few-layer MoS2 Films onto Arbitrary Substrates<\/em>, ACS Nano 8, 11522 (2014).\u00a0(pdf)<\/a><\/li>\n
  78. Yong Zhang<\/strong> and Jianwei Wang, Bound exciton model for an acceptors in a semiconductor<\/em>, Phys. Rev. B 90, 155201 (2014). (pdf<\/a>)<\/li>\n
  79. Weihuang Yang, Jinchai Li, Yong Zhang<\/strong>, Po-Kai Huang, Tien-Chang Lu, Hao-Chung Kuo, Shuping Li, Xu Yang, Hangyang Chen, Dayi Liu, and Junyong Kang, High density GaN\/AlN quantum dots for deep UV LED with high quantum efficiency and temperature stability<\/em>, SCIENTIFIC REPORTS 4, 5166 (2014).\u00a0(pdf)<\/a><\/li>\n
  80. \u00a0Lian Hu, Huizhen Wu, Bingpo Zhang, Lingxiao Du, Tianning Xu, Yongyue Chen, and Yong Zhang<\/strong>, Designable luminescence with Quantum Dot \u2013 Silver, <\/em>Plasmon Coupler<\/em>, Small 10, 3099 (2014).\u00a0(pdf)<\/a><\/li>\n
  81. Henan Liu, Yong Zhang<\/strong>, Yuanping Chen and Priyalal S. Wijewarnasuriya, Confocal micro-PL mapping of defects in CdTe epilayers grown on Si (211) substrates with different annealing cycles<\/em>, J. Electron. Mat. 43, 2854 (2014). (pdf<\/a>)<\/span><\/li>\n
  82. Tao Sheng, <\/span><\/sub>Padmanabha P. Chavvakula, Baobao Cao, Naili Yue, Yong Zhang<\/strong>, and Haitao Zhang, Growth of Ultra-long Sodium Tungsten Oxide and Tungsten Oxide Nanowires: Effects of Impurity and Residue Deposition<\/em>, J. Cryst. Growth. 395, 61 (2014).\u00a0(pdf)<\/a><\/span><\/li>\n
  83. Liqin Su, Yong Zhang<\/strong>, Yifei Yu, and Linyou Cao, Dependence of coupling of quasi 2-D MoS2<\/span><\/sub> with substrates on substrate types, probed by temperature dependent Raman scattering<\/em>, Nanoscale 6, 4920 (2014). (pdf<\/a>)<\/span><\/li>\n
  84. Kai Wang, Satish C. Rai, Jason Marmon, Jiajun Chen, Kun Yao, Sarah Wozny, Baobao Cao, Yanfa Yan, Yong Zhang<\/strong>, and Weilie Zhou, Nearly lattice matched all wurtzite CdSe\/ZnTe type II core\u2013shell nanowires with epitaxial interfaces for photovoltaics<\/em>, Nanoscale, 6, 3679 (2014). (pdf<\/a>)<\/span><\/li>\n
  85. Y. Lin, Y. Zhang<\/strong>, Z. Q. Liu, L. Q. Su, J. H. Zhang, T. B. Wei, and Z. Chen, Interplay of point defects, extended defects, and carrier localization in the efficiency droop of InGaN quantum wells light-emitting diodes investigated using spatially resolved electroluminescence and photoluminescence<\/em>, J. Appl. Phys. 115, 023103 (2014)\u00a0(pdf<\/a>)<\/span><\/li>\n
  86. Qiong Chen and Yong Zhang<\/strong>, The reversal of the laser-beam-induced-current contrast with varying illumination density in a Cu2ZnSnSe4 thin-film cell<\/em>, Appl. Phys. Lett. 103, 242104 (2013). (pdf<\/a>)<\/span><\/li>\n
  87. Xiao-ChunWang, Yong Zhang<\/strong>, Fu-Chun Liu, Yanming Ma,Wei Feng, and Sean Xiao-An Zhang, Dynamic nano-pulling effect of the boron-functionalized graphene monovacancy for molecule dissociation<\/em>, J. Phys. D: Appl. Phys. 46, <\/strong>385302 (2013).\u00a0(pdf)<\/a><\/span><\/li>\n
  88. Yifei Yu, Chun Li, Yi Liu, Liqin Su, Yong Zhang<\/strong>,\u00a0 and Linyou Cao, Controlled Scalable Synthesis of Uniform, High-Quality Monolayer and Few-layer MoS2 Films<\/em>, SCIENTIFIC REPORTS 3, 1866 (2013). (pdf<\/a>)<\/span><\/li>\n
  89. Shuqiang Jin, Chunfeng Cai, Gang Bi,\u00a0 Bingpo Zhang, Huizhen Wu, and Yong Zhang<\/strong>, Two-dimensional electron gas at the metastable twisted interfaces of CdTe\/PbTe (111) single heterojunctions<\/em>, Phys. Rev. B 87, 235315 (2013).(pdf<\/a>)<\/span><\/li>\n
  90. N. L. Yue, Y. Zhang<\/strong>, and R. Tsu, Ambient condition laser writing of graphene structures on polycrystalline SiC thin film deposited on Si wafer<\/em>, Appl. Phys. Lett. 102, 071912 (2013). (pdf<\/a>)<\/span><\/li>\n
  91. T. H. Gfroerer, Y. Zhang<\/strong>, and M. W. Wanlass, An extended defect as a sensor for free carrier diffusion in a semiconductor<\/em>, Appl. Phys. Lett. 102, 012114 (2013). (pdf<\/a>)<\/span><\/li>\n
  92. Y. Lin, Y. Zhang<\/strong>, Z. Q. Liu, L. Q. Su, J. H. Zhang, T. B. Wei, and Z. Chen, Spatially resolved study of quantum efficiency droop in InGaN light-emitting diodes<\/em>, Appl. Phys. Lett. 101, 252103 (2012). (pdf<\/a>) Erratum:\u00a0(pdf)<\/a><\/span><\/li>\n
  93. S. Q. Jin, C. F. Cai, B. P. Zhang, H. Z. Wu, G. Bi, J. X. Si, and Y. Zhang<\/strong>, Twisted ZB\u2013CdTe\/RS\u2013PbTe (111) heterojunction as a metastable interface structure<\/em>, New J. Phys 14, 113021 (2012). (pdf<\/a>)<\/span><\/li>\n
  94. Y. Lin, Y.-L. Gao, Y.-J. Lu, L.-H. Zhu, Y. Zhang<\/strong>, and Z. Chen, Study of temperature sensitive optical parameters and junction temperature determination of light-emitting diodes<\/em>, Appl. Phys. Lett. 100, 202108 (2012). (pdf<\/a>)<\/span><\/li>\n
  95. Y. Zhang<\/strong>, Z. Wu, J. Zheng, X. Lin, H. Zhan, S. Li, J. Kang, J. Bleuse, H. Mariette, ZnO\/ZnSe type II core\u2013shell nanowire array solar cell<\/em>, Solar Energy Materials and Solar Cells 102, 15 (2012). (pdf<\/a>)<\/span><\/li>\n
  96. X. Wang, R. Yang, Y. Zhang<\/strong>, P. Zhang, and Y. Xue, Rare earth chalcogenide Ce3Te4 as high efficiency high temperature thermoelectric material<\/em>, Appl. Phys. Lett. 98, 222110 (2011). (pdf<\/a>)<\/span><\/li>\n
  97. Y. Zhang<\/strong> and L. W. Wang, Global electronic structure of semiconductor alloys through direct large-scale computations for III-V alloys Gax<\/span><\/sub>In1\u2212<\/span>x<\/span><\/sub>P<\/em>, Phys. Rev. B 83, 165208 (2011). (pdf<\/a>)<\/span><\/li>\n
  98. Z. M. Wu, Y. Zhang<\/strong>, J. J. Zheng, X. G. Lin, X. H. Chen, B. W. Huang, H. Q. Wang, K. Huang, S. P. Li, and J. Y. Kang, An all-inorganic type-II heterojunction array with nearly full solar spectral response based on ZnO\/ZnSe core\/shell nanowires<\/em>, J. Mater. Chem. 21, 6020 (2011). (pdf<\/a>)<\/span><\/li>\n
  99. X.-C. Wang, H.-Y. Zhao, Nan-Xian Chen, Y. Zhang<\/strong>, Tuning of the periodicity of stable self-organized metallic templates<\/em>, Chin. Phys. B 20, 020513 (2011).\u00a0(pdf)<\/a><\/span><\/li>\n
  100. X.-C. Wang, H.-Y. Zhao, N.-X. Chen, Nan-Xian Chen, Y. Zhang<\/strong>, Theoretical Investigations into Self-Organized Ordered Metallic Semi-Clusters Arrays on Metallic Substrate<\/em>, Nanoscale Research Letters 5, 1020 (2010).\u00a0(pdf)<\/a><\/span><\/li>\n
  101. K. Wang, J.-J Chen, Z. Zeng, J. Tarr, W.-L. Zhou, <\/strong>Y.<\/strong> Zhang<\/strong>, <\/strong>Y.-F Yan, C.-S Jiang, J. Pern, and A. Mascarenhas, Synthesis and Photovoltaic Effect of Vertically Aligned <\/em>ZnO\/ZnS Core\/Shell<\/em> Nanowire Arrays<\/em>, Appl. Phys. Lett. 96, 123105 (2010).\u00a0(pdf)<\/a><\/span><\/li>\n
  102. Y. Zhang<\/strong> and R. Tsu, Binding graphene sheets together using Silicon \u2013 Graphene\/Silicon superlattice<\/em>, Nanoscale Research Letters 5, 805(2010). (pdf<\/a>)<\/span><\/li>\n
  103. \u00a0M. A. Steiner, L. Bhusal, J. F. Geisz, A. G. Norman, M. J. Romero, W. J. Olavarria, Y. Zhang<\/strong>, and A. Mascarenhas, CuPt ordering in high bandgap Gax<\/span><\/sub>In1\u2212<\/span>x<\/span><\/sub>P alloys on relaxed GaAsP step g<\/em>rades, J. Appl. Phys. 106, 063525 (2009).\u00a0(pdf)<\/a><\/span><\/li>\n
  104. P. Grivickas, M. D. McCluskey, Y. M. Gupta, Y. Zhang<\/strong>, and J. F. Geisz, Bound exciton luminescence in shock compressed GaP:S and GaP:N<\/em>, J. Appl. Phys. 106<\/strong>, 23710\u00a0(2009).\u00a0(pdf)<\/a><\/span><\/li>\n
  105. Y<\/strong>. Zhang<\/strong>, A. Mascarenhas, S.-H. Wei, and L.-W. Wang, Comparison of atomistic simulations and statistical theories for variable degree of long-range order in semiconductor alloys<\/i>, Phys. Rev. B 80, 045206 (2009).\u00a0(pdf)<\/a><\/span><\/li>\n
  106. X. F. Lu, D.A. Beaton, R.B. Lewis, T. Tiedje, and Y. Zhang<\/strong>, Composition Dependence of Photoluminescence of GaAs1-x<\/span><\/sub>Bix<\/span><\/sub> Alloys<\/em>, Appl. Phys. Lett. 95<\/strong>, 041903\u00a0(2009).\u00a0(pdf)<\/a><\/span><\/li>\n
  107. Y. Xue, Y. Zhang<\/strong>, and P.-H. Zhang, Theory of the color change of Nax<\/span><\/sub>WO3<\/span><\/sub> as a function of Na-charge doping<\/em>, Phys. Rev. B 79, 205113 (2009).\u00a0(pdf)<\/a><\/span><\/li>\n
  108. Y. Zhang<\/strong>, C.-S. Jiang, D. J. Friedman, J. F. Geisz, and A. Mascarenhas, Tailoring the electronic properties of Gax<\/span><\/sub>In1-x<\/span><\/sub>P beyond simply varying alloy composition<\/em>, Appl. Phys. Lett. 94, 091113(2009).\u00a0(pdf)<\/a><\/span><\/li>\n
  109. A. Mascarenhas, R. Kini, Y. Zhang<\/strong>, R. France, and A. Ptak, Comparison of the dilute bismide and nitride alloys GaAsBi and GaAsN<\/em>, phys. stat. sol. (b) 246, 504 (2009).\u00a0(pdf)<\/a><\/span><\/li>\n
  110. Y. Zhang<\/strong>, S.-H. Lee, A. Mascarenhas, and S. K. Deb, UV photochromic memory effect in proton-based WO3<\/span><\/sub> electrochromic devices<\/em>, Appl. Phys. Lett. 93, 203508 (2008).\u00a0(pdf)<\/a><\/span><\/li>\n
  111. Y. Zhang<\/strong>, A. Mascarenhas, and L.-W. Wang, Interplay of alloying and ordering on the electronic structure of Gax<\/span><\/sub>In1-x<\/span><\/sub>P alloys<\/em>, Phys. Rev. B 78, 235202 (2008). (pdf<\/a>)<\/span><\/li>\n
  112. Y. Zhang<\/strong>, A. Mascarenhas, and L.-W. Wang, Non-Bloch Nature of Alloy States in a Conventional Semiconductor Alloy: Gax<\/span><\/sub>In1-<\/span>x<\/span><\/sub>P as an Example<\/em>, Phys. Rev. Lett. 101, 036403 (2008).\u00a0(pdf)<\/a><\/span><\/li>\n
  113. K. Wang, J.-J. Chen, W.-L. Zhou, Y. Zhang<\/strong>, Y.-F. Yan, J. Pern, and A. Mascarenhas, Direct Growth of Highly Mismatched Type II ZnO\/ZnSe Core\/Shell Nanowire Arrays on Transparent Conducting Oxide Substrates for Solar Cell Applications<\/em>, Adv. Mat. 20, 3248 (2008).\u00a0(pdf)<\/a><\/span><\/li>\n
  114. A. Franceschetti and Y. Zhang<\/strong>, Multiexciton Absorption and Multiple Exciton Generation in CdSe Quantum Dots<\/em>, Phys. Rev. Lett. 100, <\/strong>136805 (2008). (pdf<\/a>)<\/span><\/li>\n
  115. Min Wu, Thomas J. Emge, Xiaoying Huang, Jing Li, Y. Zhang<\/strong>, Designing and tuning properties of a three-dimensional porous quaternary chalcogenide built on a bimetallic tetrahedral cluster [M4Sn3S13]5_ (M = Zn\/Sn)<\/em>, Journal of Solid State Chemistry 181, 415\u2013422 (2008).\u00a0(pdf)<\/a><\/span><\/li>\n
  116. L. C. Lew Yan Voon, Y. Zhang<\/strong>, B. Lassen, M. Willatzen, Q. Xiong, and P. C. Eklund, Electronic Properties of Semiconductor Nanowires<\/em>, J. Nanoscience and Nanotechnology 8, 1 (2008) (invited review paper).\u00a0(pdf)<\/a><\/span><\/li>\n
  117. Y. Zhang<\/strong>, Z. Islam, Y. Ren, P. Parilla, S. P. Ahrenkiel, P. L. Lee, A. Mascarenhas,M. J. McNevin, I. Naumov, H.-X. Fu, X.-Y. Huang, and J. Li, Zero thermal expansion in a nanostructured inorganic-organic hybrid crystal<\/em>, Phys. Rev. Lett.\u00a0 99, 215901 (2007). Virtual Journal of Nanoscale Science & Technology — December 3, 2007, Volume 16, Issue 23.\u00a0(pdf)<\/a><\/span><\/li>\n
  118. Y. Zhang<\/strong>, L.-W. Wang, and A.\u00a0 Mascarenhas, \u201cQuantum coaxial cables\u201d for solar energy harvesting<\/em>, Nano. Lett. 7, 1264 (2007).\u00a0(pdf)<\/a><\/span><\/li>\n
  119. W. Ki, X.-Y. Huang, J. Li, D. L. Young, Y. Zhang<\/strong>, Highly conductive group VI transition metal dichalcogenide films by solution-processed deposition<\/em>, J. Mater. Res. 22, 1390 (2007).\u00a0(pdf)<\/a><\/span><\/li>\n
  120. P. H. Tan, Z. Y. Xu, X. D. Luo, W. K. Ge, Y. Zhang<\/strong>, A. Mascarenhas, H. P. Xin, and C. W. Tu, Unusual carrier thermalization in a dilute GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> alloy<\/em>, Appl. Phys. Lett. 90, 61905 (2007). (pdf<\/a>)<\/span><\/li>\n
  121. Y. Zhang<\/strong>, A. Mascarenhas, and L.-W. Wang, Systematic approach to distinguishing a perturbed host state from an impurity state in a supercell calculation for a doped semiconductor: using GaP:N as an example<\/em>, Phys. Rev. B 74, 41201(R) (2006).\u00a0(pdf)<\/a><\/span><\/li>\n
  122. P. H. Tan,\u00a0 Z. Y. Xu, X. D. Luo,\u00a0 W. K. Ge, Y. Zhang<\/strong>, A. Mascarenhas, H. P. Xin, and C. W. Tu, Resonant Raman scattering with the E+<\/span><\/sub> band in a dilute GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> alloy (x=0.1%)<\/em>, Appl. Phys. Lett. 89, 101912 (2006).\u00a0(pdf)<\/a><\/span><\/li>\n
  123. W. J. Wang, X. D. Yang, B. S. Ma, Z. Sun, F. H. Su, K. Ding, Z. Y. Xu, G. H. Li,\u00a0 Y. Zhang<\/strong>, A. Mascarenhas,\u00a0 H. P. Xin, and C. W. Tu,\u00a0 The lifetime study of N\u00a0 impurity states in GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> (x=0.1%)\u00a0 under hydrostatic pressure,<\/em> Appl. Phys. Lett. 88, 201917 (2006).\u00a0(pdf)<\/a><\/span><\/li>\n
  124. P. H. Tan, X. D. Luo, Z. Y. Xu, Y. Zhang<\/strong>, A. Mascarenhas, H. P. Xin, C. W. Tu, and W. K. Ge, \u00a0<\/strong>Photoluminescence from the nitrogen-perturbed above bandgap states in dilute GaAsN alloys probed by <\/em>m<\/em>-PL<\/em>, Phys. Rev. B 73, 205205 (2006).\u00a0(pdf)<\/a><\/span><\/li>\n
  125. C.-Y. Moon, G. M. Dalpian, Y. Zhang<\/strong>, S.-H. Wei, X.-Y. Huang, and J. Li, Study of phase selectivity of organic-inorganic hybrid semiconductors<\/em>, Chem. Mater. 18, 2805 (2006).\u00a0(pdf)<\/a><\/span><\/li>\n
  126. Y. Zhang<\/strong>, G. M. Dalpian, B. Fluegel, S.-H Wei, A. Mascarenhas, X.-Y. Huang, J. Li, and L.-W. Wang, Novel approach to tuning physical properties of organic-inorganic hybrid semiconductors<\/em>, Phys. Rev. Lett. 96, 026405(2006).\u00a0(pdf)<\/a><\/span><\/li>\n
  127. B. Fluegel, Y.<\/strong> Zhang<\/strong>, J. F. Geisz, and A. Mascarenhas, Confirmation of the impurity-band model for GaP1-x<\/span><\/sub>Nx<\/span><\/sub>,<\/em> Phys. Rev. B \u00a0<\/strong>72, 073203 (2005).\u00a0(pdf)<\/a><\/span><\/li>\n
  128. B. Fluegel, Y.<\/strong> Zhang<\/strong>, J. F. Geisz, and A. Mascarenhas, Comment on \u201cExperimental evidence for N-induced strong coupling of host conduction band states in GaP1-x<\/span><\/sub>Nx<\/span><\/sub>:\u00a0 Insight into the dominant mechanism for giant band-gap bowing\u201d<\/em>, Phys. Rev. B 72, 197301 (2005).\u00a0(pdf)<\/a><\/span><\/li>\n
  129. Y. Zhang<\/strong> and A. Mascarenhas, Total and negative refraction of electromagnetic waves<\/em>, Modern Physics Letters B 19, 21 (2005) (An invited review paper).\u00a0(pdf)<\/a><\/span><\/li>\n
  130. Y. Zhang, <\/strong>A. Mascarenhas, and L.W. Wang, III-V-Bi versus III-V-N: similar and dissimilar aspects<\/em>, Phys. Rev. B 71, 155201 (2005).\u00a0(pdf)<\/a><\/span><\/li>\n
  131. B. S. Ma, F. H. Su, K. Ding, G. H. Li, Y. Zhang<\/strong>, A. Mascarenhas, H. P. Xin, and C. W. Tu, Pressure behavior of the alloy band-edge and nitrogen related centers in GaAs0.999<\/span><\/sub>N0,001<\/span><\/sub><\/em>, Phys. Rev. B 71, 45213 (2005).\u00a0(pdf)<\/a><\/span><\/li>\n
  132. Y.-L. Gao, Y.-J. Lu, J.-S. Zheng, Y. Zhang<\/strong>, A. Mascarenhas, H.-P. Xin, and C. W. Tu, Transient Photoluminescence of GaP1-x<\/span><\/sub>Nx<\/span><\/sub> Alloys<\/em>, Chinese J. Lumin. 26, 77 (2005).\u00a0(pdf)<\/a><\/span><\/li>\n
  133. Y. -J. Lu, Y. -L. Gao, J. -S. Zheng, Y. Zhang<\/strong>, A. Mascarenhas, H. P. Xin, and C. W. Tu, Direct Observation of NN Pairs Transfer in GaP1-x<\/span><\/sub>Nx<\/span><\/sub> (x = 0.12%),<\/em> Chinese Phys. Lett. 22, 2957 (2005). (pdf)<\/a><\/span><\/li>\n
  134. J. H. Li, S. C. Moss, Y. Zhang<\/strong>, A. <\/strong>Mascarenhas, J. Bai, \u00a0X-Ray Characterization of Atomic-Layer Superlattices<\/em>, Journal of Physics D: Applied Physics. 38, 2005; pp. A147-A153.\u00a0(pdf)<\/a><\/span><\/li>\n
  135. Y.-L. Gao, Y.-J. Lu, J.-S. Zheng, Y. Zhang<\/strong>, A. Mascarenhas, H.-P. Xin, and C. W. Tu, Study on the New Bound States in the GaP1-x<\/span><\/sub>Nx<\/span><\/sub> Alloys<\/em>, Chinese J. Lumin. 25, 168 (2004). (pdf)<\/a><\/span><\/li>\n
  136. X. Wu, Y. Yan, R. G. Dhere, Y. Zhang<\/strong>, J. Zhou, A. Duda, C. Perkins, and B. Tu, Nanostructured CdS:O film: preparation, properties, and applications<\/em>, Phys. Stat. Sol. C 1, 1062-1066 \u00a0(2004).\u00a0(pdf<\/a>)<\/span><\/li>\n
  137. S. Smith, Y. Zhang<\/strong>, A. Mascarenhas, and M. Hanna, Effect of localization on excitonic linewidth in partially-ordered GaInP2<\/span><\/sub><\/em>, Phys. Rev. B 70, 235301 (2004).\u00a0(pdf)<\/a><\/span><\/li>\n
  138. B. Fluegel, Y. Zhang<\/strong>, A. Mascarenhas, X. Huang, and J. Li, Electronic \u00a0properties of hybrid organic-inorganic semiconductors<\/em>, Phys. Rev. B 70, 205308 (2004).\u00a0(pdf)<\/a><\/span><\/li>\n
  139. Y. Zhang, <\/strong>B. Fluegel, and A. Mascarenhas, Total and negative refraction in real crystals for ballistic electrons and light<\/em>, Phys. Rev. Lett. 91, 157404 (2003).\u00a0(pdf)<\/a><\/span><\/li>\n
  140. J. H. Li, S. C. Moss, Y. Zhang<\/strong>, A. Mascarenhas, L. N. Pfeiffer, K. W. West, W. K. Ge, and J. Bai, Layer ordering and faulting in (GaAs)n<\/span><\/sub>\/(AlAs)n<\/span><\/sub> ultra-short-period superlattices<\/em>, Phys. Rev. Lett. 91, 106103 (2003).\u00a0(pdf)<\/a><\/span><\/li>\n
  141. Y. Zhang<\/strong>, B. Fluegel, M. C. Hanna, A. Mascarenhas, L.-W. Wang, Y. J. Wang, and X. Wei, Impurity perturbation to the host band structure and recoil of the impurity state<\/em>, Phys. Rev. B 68, 75210 (2003).\u00a0(pdf)<\/a><\/span><\/li>\n
  142. Y. Zhang<\/strong>, B. Fluegel, M. C. Hanna, J. F. Geisz, L.-W. Wang, and A. Mascarenhas, Effects of heavy nitrogen doping in III-V semiconductors- How well does the conventional wisdom hold for the dilute nitrogen \u201cIII-V-N alloys\u201d?<\/em>, Phys. Stat. Sol (b) 240, 396 (2003) (An invited talk).\u00a0(pdf)<\/a><\/span><\/li>\n
  143. X.-Y. Huang, J. Li, Y. Zhang<\/strong>, and A. Mascarenhas, From 1D Chain to 3D Network: Syntheses, Structures, and Optical Properties of Novel Hybrid II-VI Nanocomposites<\/em>, JACS 125, 7049 (2003).\u00a0(pdf)<\/a><\/span><\/li>\n
  144. S. Zh. Karazhanov, Y. Zhang<\/strong>, L.-W. Wang, A. Mascarenhas, and S. Deb, Resonant defect states and strong lattice relaxation of oxygen vacancies in WO3<\/span><\/sub><\/em>, Phys. Rev. B 68, 233204 (2003).\u00a0(pdf)<\/a><\/span><\/li>\n
  145. S. Zh. Karazhanov, Y. Zhang<\/strong>, A. Mascarenhas, S. Deb, and L.-W. Wang, Oxygen vacancy in cubic WO3 studied by first-principles pseudopotential calculation<\/em>, Proceeding of the 5th International Conference on Electrochromism, Solid State Ionics 165, 43 (2003). (pdf)<\/a><\/span><\/li>\n
  146. Y.J. Wang, X. Wei, Y.<\/strong> Zhang<\/strong>, A. Mascarenhas, H. P. Xin, Y. G. Hong, and C. W. Tu, Evolution of the electron localization in a non-conventional alloy system GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> probed by high magnetic field photoluminescence<\/em>, Appl. Phys. Lett. 82, 4453 (2003).\u00a0(pdf)<\/a><\/span><\/li>\n
  147. X. D. Luo, J. S. Huang, Z. Y. Xu, C. L. Yang, J. Liu, W. K. Ge, Y. Zhang<\/strong>, A. A. Mascarenhas, H.-P. Xin, and C. W. Tu, Alloy states in dilute GaAs1-x<\/sub>Nx<\/sub> alloys (x<1%), <\/em>Appl. Phys. Lett. 82, 1697 (2003).\u00a0(pdf)<\/a><\/span><\/li>\n
  148. Y.-L. Gao, Y.-J. Lu, J.-S. Zheng, Y. Zhang<\/strong>, A. Mascarenhas, H.-P. Xin, and C. W. Tu, Chinese J. Semiconductors 24, 476 (2003).\u00a0(pdf)<\/a><\/span><\/li>\n
  149. Y.-L. Gao, Y.-J. Lu, J.-S. Zheng, Y. Zhang<\/strong>, A. Mascarenhas, H.-P. Xin, and C. W. Tu, Raman scattering of GaP1-x<\/span><\/sub>Nx<\/span><\/sub> alloys<\/em>, Chinese J. Semiconductors 24, 714 (2003).\u00a0(pdf)<\/a><\/span><\/li>\n
  150. B. Fluegel, S. Smith, Y. Zhang<\/strong>, A. Mascarenhas, J. F. Geisz, and J. M. Olson, Resonant excitation study of ultrasharp emission lines in ordered Gax<\/span><\/sub>In1-x<\/span><\/sub>P<\/em>, Phys. Rev. B 115320 (2002).\u00a0(pdf)<\/a><\/span><\/li>\n
  151. J. H. Li, R.L. Forrest, S.C. Moss, Y. Zhang<\/strong>, A. Mascarenhas, and J. Bai, Determination of the order parameter of the CuPt-B ordered GaInP2 films by x-ray diffraction<\/em>, J. Appl. Phys. 91, 9039 (2002).\u00a0(pdf)<\/a><\/span><\/li>\n
  152. Y. Zhang<\/strong>, A. Mascarenhas, and L.-W. Wang, Band alignment between GaAs and partially ordered GaInP, <\/em>Appl. Phys. Lett. 80, 3111 (2002).\u00a0(pdf)<\/a><\/span><\/li>\n
  153. A. Mascarenhas, Y. Zhang<\/strong>, and M. J. Seong, Perspective of GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> and GaP1-x<\/span><\/sub>Nx<\/span><\/sub> as Heavily Doped Semiconductors<\/em>, Proc. ICNS-4, Phys. Stat. Sol. 228, 243 (2001).\u00a0(pdf)<\/a><\/span><\/li>\n
  154. Y. Zhang<\/strong>, S. Francoeur, A. Mascarenhas, H. P. Xin, and C. W.\u00a0Tu, Electronic structure of heavily and randomly nitrogen doped GaAs near the fundamental band gap<\/em>, Phys. Stat. Sol. 228, 287 (2001).\u00a0(pdf)<\/a><\/span><\/li>\n
  155. A. Mascarenhas and Y. Zhang<\/strong>, Dilute nitride based III-V alloys for laser and solar cell applications<\/em>, Current Opinions Solid State Mater. Sci. 5, 253 (2001) (An invited review).\u00a0(pdf)<\/a><\/span><\/li>\n
  156. A. Mascarenhas, Y. Zhang<\/strong>, J. Verley, and M. J. Seong, Overcoming limitations in semiconductor alloy design<\/em>, Superlattices and microstructures 29, 395 (2001).\u00a0(pdf)<\/a><\/span><\/li>\n
  157. Y. Zhang<\/strong> and A. Mascarenhas, Effects of the orientational superlattice on the electronic and vibrational properties of CuPt ordered GaInP alloys,<\/em> J. Raman Spectrosc. 32, 831 (2001).\u00a0(pdf)<\/a><\/span><\/li>\n
  158. Y. Zhang<\/strong>, A. Mascarenhas, and L.-W. Wang, Statistical aspects of electronic and structural properties in partially ordered semiconductor alloys, <\/em>Phys. Rev. B 64, 125207 (2001).\u00a0(pdf)<\/a><\/span><\/li>\n
  159. Y. Zhang<\/strong>, A. Mascarenhas, and L.-W. Wang, Dependence of the band structure on the order parameter for partially ordered Gax<\/span><\/sub>In1-x<\/span><\/sub>P alloy, <\/em>Phys. Rev. B 63, R201312 (2001).\u00a0(pdf)<\/a><\/span><\/li>\n
  160. Y. Zhang<\/strong>, A. Mascarenhas, H. P. Xin, and C. W. Tu, Scaling Of Band Gap Reduction In Heavily Nitrogen Doped GaAs<\/em>, Phys. Rev. B 63, R161303 (2001).\u00a0(pdf)<\/a><\/span><\/li>\n
  161. J. H. L, J. Kulik, V. Holy, Z. Zhong, S. C. Moss, Y. Zhang<\/strong>, S. P. Ahrenkiel, A. Mascarenhas, and J. Bai, X-ray diffraction from CuPt-ordered III-V ternary semiconductor alloy films<\/em>, <\/strong>Phys. Rev. B 63, 155310 (2001).\u00a0(pdf)<\/a> \u00a0<\/span><\/li>\n
  162. Y. Zhang<\/strong>, A. Mascarenhas, J. F. Geisz, H. P. Xin, and C. W. Tu, Discrete and continuous spectrum of nitrogen induced bound states in heavily doped GaAs:N<\/em>, Phys. Rev. B 63, 85205 (2001).\u00a0(pdf)<\/a><\/span><\/li>\n
  163. S. Francoeur, Y. Zhang<\/strong>, A. G. Norman, F. Alsina, A. Mascarenhas, J. L. Reno, E. D. Jones, S. R. Lee, and D. M. Follstaedt, Optical properties of spontaneous lateral composition modulation in AlAs\/InAs short-period superlattices<\/em>, Appl. Phys. Lett. 77, 1765 (2000).(pdf)<\/a><\/span><\/li>\n
  164. Y. Zhang<\/strong>, B. Fluegel, A. Mascarenhas, H. P. Xin, and C. W. Tu, Optical transitions in isoelectronically doped semiconductor GaP:N: an evolution from isolated centers, pairs, clusters to an impurity band,<\/em> Phys. Rev. B 62, 4493 (2000).\u00a0(pdf)<\/a><\/span><\/li>\n
  165. S. Zh. Karazhanov, Y. Zhang<\/strong>, A. Mascarenhas, and S. Deb, The effect of excitons on CdTe solar cells<\/em>, J. Appl. Phys. 87, 8786 (2000).\u00a0(pdf)<\/a><\/span><\/li>\n
  166. Y. Zhang<\/strong> and A. Mascarenhas, Isoelectronic impurity states in GaAs:N<\/em>, Phys. Rev. B 61, 15562 (2000).\u00a0(pdf)<\/a><\/span><\/li>\n
  167. H. M. Cheong, Y. Zhang<\/strong>, A. Mascarenhas, and J. F. Geisz, Observation of nitrogen-induced levels in GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> using resonant Raman studies<\/em>, Phys. Rev. B 61, 13687 (2000).\u00a0(pdf)<\/a><\/span><\/li>\n
  168. M. Kozhevnikov, V. Narayanamurti, C. V. Reddy, H. P. Xin, C. W. Tu, A. Mascarenhas, and Y. Zhang, <\/strong>Evolution of GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> conduction states and giant Au\/GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> Schottky barrier reduction studied by ballistic electron emission microscopy<\/em>, Phys. Rev. B 61, R7861 (2000).\u00a0(pdf)<\/a><\/span><\/li>\n
  169. H. P. Xin, C. W. Tu, Y. Zhang<\/strong>, and A. Mascarenhas, Effects of nitrogen on the band structure of GaNx<\/span><\/sub>P1-x<\/span><\/sub> alloys<\/em>, Appl. Phys. Lett. 76, 1267 (2000). (pdf<\/a>)<\/span><\/li>\n
  170. Y. Zhang<\/strong>, A. Mascarenhas, S. Smith, J. F. Geisz, J.M. Olson, and M. Hanna, Effects of spontaneous ordering and alloy statistical fluctuations on exciton linewidth in Gax<\/span><\/sub>In1-x<\/span><\/sub>P alloys<\/em>, Phys. Rev. B 61, 9910 (2000).\u00a0(pdf)<\/a><\/span><\/li>\n
  171. Y. Zhang<\/strong>, A. Mascarenhas, H. P. Xin, and C. W. Tu, Formation of an impurity band and its quantum confinement in heavily doped GaAs:N<\/em>, Phys. Rev. B 61, 7479 (2000).\u00a0(pdf)<\/a><\/span><\/li>\n
  172. Y. Zhang<\/strong>, A. Mascarenhas, H. P. Xin, and C. W. Tu, Valence-band splitting and shear deformation potential of dilute GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> alloys<\/em>, Phys. Rev. B 61, 4433 (2000).\u00a0(pdf)<\/a><\/span><\/li>\n
  173. Y. Zhang<\/strong> and W.-K. Ge, Behavior of Nitrogen Impurities in III-V Semiconductors<\/em>, J. Lumin. 85, 247 (2000) (An invited review paper).\u00a0(pdf)<\/a><\/span><\/li>\n
  174. M. Kozhevnikov and V. Narayanamurti, A. Mascarenhas, Y. Zhang<\/strong>, and J. M. Olson, Ordering-induced band structure effects in GaInP2<\/span><\/sub> studied by ballistic electron emission microscopy<\/em>, Appl. Phys. Lett. 75, 1128 (1999).\u00a0(pdf)<\/a><\/span><\/li>\n
  175. H.M. Cheong, Y. Zhang<\/strong>, A. Norman, J. D. Perkins, A. Mascarenhas, K.Y. Cheng, and K.C. Hsieh, Resonant Raman scattering studies of composition-modulated GaP\/InP short-period superlattices<\/em>, Phys. Rev. B 60, 4883 (1999).\u00a0(pdf)<\/a><\/span><\/li>\n
  176. B. Fluegel, Y. Zhang<\/strong>, A. Mascarenhas, J. F. Geisz, J. M. Olson, and A. Duda, Crystal anisotropy and spin-polarized photoluminescence of ordered Gax<\/span><\/sub>In1-x<\/span><\/sub>P<\/em>, Phys. Rev. B 60, R11261 (1999).\u00a0(pdf)<\/a><\/span><\/li>\n
  177. J. D. Perkins, A. Mascarenhas, Y.<\/strong> Zhang<\/strong>, J. F. Geisz, D. J. Friedman, J. M. Olson, and S. R. Kurtz, Nitrogen-activated transitions, level repulsion, and band gap reduction in GaAs1-x<\/span><\/sub>Nx<\/span><\/sub> with x < 0.03<\/em>, Phys. Rev. Lett. 82, 3312 (1999).\u00a0(pdf)<\/a><\/span><\/li>\n
  178. Y. Zhang<\/strong> and A. Mascarenhas, Scaling of Exciton Binding Energy and Virial Theorem in Semiconductor Quantum Wells and Wires<\/em>, Phys. Rev. B 59, 2040 (1999).\u00a0(pdf)<\/a><\/span><\/li>\n
  179. E. D. Jones, D.M. Follstaedt, S.R. Lee, J.L. Reno, J. Mirecki Millunchick, S.P. Ahrenkiel, A. Mascarenhas, A. Norman, Y. Zhang<\/strong>, and R. D. Twesten, Photoluminescence studies of lateral composition modulated short-period AlAs\/InAs superlattices<\/em>, Thin Solid Films 357, 31 (1999).\u00a0(pdf)<\/a><\/span><\/li>\n
  180. David M Follstaedt, Andrew G Norman, S Ahrenkeil, John L Reno, Steve R Lee, Eric D Jones, Joanna Mirecki Millunchick, Angelo Mascarenhas, Yong Zhang<\/strong>, Ray D Twesten, Extending lateral composition modulations in InAs\/AlAs superlattices with miscut subtrates<\/em>, Journal of Electronic Materials 28, 1025 (1999). <\/span><\/li>\n
  181. Y. Zhang<\/strong>, A. Mascarenhas, S.P. Ahrenkiel, D. J. Friedman, J. F. Geisz, and J.M. Olson, Electronic and optical properties of periodically stacked orientational domains in CuPt-ordered GaInP2<\/span><\/sub><\/em>, Solid State Commun. 109, 99 (1998).\u00a0(pdf)<\/a><\/span><\/li>\n
  182. R. L Forrest, T. D. Golding, S. C. Moss, Y. Zhang<\/strong>, J. Geisz, J. M. Olson, A. Mascarenhas, P. Ernst and, C. Geng, X-ray diffraction and excitation photoluminescence analysis of ordered GaInP<\/em>, Phys. Rev. B 58, 15355 (1998).\u00a0(pdf)<\/a><\/span><\/li>\n
  183. J. D. Perkins, Y. Zhang<\/strong>, J. Geisz, W. E. McMahon, J. M. Olson, and A. Mascarenhas, Electroreflectance measurements of electric fields in ordered GaInP2<\/span><\/sub><\/em>, J. Appl. Phys. 84, 4502, (1998).\u00a0(pdf)<\/a><\/span><\/li>\n
  184. Y. Zhang<\/strong>, A. Mascarenhas, and S. Deb, Effects of excitons on solar cells<\/em>, J. Appl. Phys. 84, 3966 (1998).\u00a0(pdf)<\/a><\/span><\/li>\n
  185. D. M. Follstaedt, R. D. Twesten, J. Mirecki Millunchick, S. R. Lee, E. D. Jones, S. P. Ahrenkiel, Y. Zhang<\/strong>, and A. Mascarenhas, Spontaneous lateral composition modulation in InAlAs and InGaAs short-period superlattices<\/em>, Physica E 2, 325 (1998).\u00a0(pdf)<\/a><\/span><\/li>\n
  186. E. D. Jones, J. Mirecki Millunchick, D. M. Follstaedt, S. R. Lee, J. Reno, R. D. Twesten, Y. Zhang<\/strong>, and A. Mascarenhas, Detection of lateral composition modulation by magnetoexciton spectroscopy<\/em>, Physica E\u00a0 2, 44 (1998). (pdf)<\/a>\u00a0<\/span><\/li>\n
  187. Y. Zhang<\/strong> and A. Mascarenhas, Electronic and optical properties of laterally composition-modulated Alx<\/span><\/sub>In1-x<\/span><\/sub>As, Gax<\/span><\/sub>In1-x<\/span><\/sub>P and\u00a0 Gax<\/span><\/sub><\/em>In1-x<\/span><\/sub>As alloys<\/em>, Phys. Rev. B 57, 12245 (1998). (pdf<\/a>)<\/span><\/li>\n
  188. H. M. Cheong, Y. Zhang<\/strong>, A. Mascarenhas, J. Geisz, J. M. Olson, Low-temperature cleaved-edge polarized-photoluminescence studies of spontaneously ordered GaInP2 <\/span><\/sub>alloys<\/em>, J. Appl. Phys. 83, 1773 (1998).\u00a0(pdf)<\/a><\/span><\/li>\n
  189. Y. Zhang<\/strong>, A. Mascarenhas, and E. D. Jones, Magnetoexcitons in anisotropic semiconductors<\/em>, J. Appl. Phys. 83, 448 (1998).\u00a0(pdf)<\/a><\/span><\/li>\n
  190. A. Mascarenhas, Y. Zhang<\/strong>, B. Fluegel, J. Geisz, J. M. Olson, Carrier relaxation and exciton bleaching in spontaneously ordered GaInP<\/em>, Phys. Stat. Sol. (a) 164, 477 (1997).\u00a0(pdf)<\/a><\/span><\/li>\n
  191. Y. Zhang<\/strong>, B. Fluegel, A. Mascarenhas, J. Geisz, J. M. Olson, F. Alsina, and A. Duda, Low-temperature birefringence in ordered GaInP alloy studied by polarized transmission spectroscopy<\/em>, Solid State Commun. 104, 577 (1997).\u00a0(pdf)<\/a><\/span><\/li>\n
  192. J. Mirecki-Millunchick, R. D. Twesten, S. R. Lee, D. M. Follstaedt, E. D. Jones, S. P. Ahrenkiel, Y. Zhang<\/strong>, H. M. Cheong, and A. Mascarenhas, Spontaneous Lateral Composition Modulation in III-V\u00a0 Semiconductor Alloys<\/em>, MRS Bull. 22, no.7, 38 (1997). (pdf<\/a>)<\/span><\/li>\n
  193. J. Mirecki-Millunchick, R. D. Twesten, S. R. Lee, D. M. Follstaedt, E. D. Jones, S. P. Ahrenkiel, Y. Zhang<\/strong>, H. M. Cheong, and A. Mascarenhas, Spontaneous lateral composition modulation in AlAs\/InAs short period superlattices<\/em>, J. Electron. Mat. 26, 1048 (1997).\u00a0(pdf)<\/a><\/span><\/li>\n
  194. S. Luo, J. M. Olson, Y. Zhang<\/strong>, and A. Mascarenhas, Near band gap reflectance anisotropy in ordered GaInP<\/em>, Phys. Rev. B 55, 16385 (1997).\u00a0(pdf)<\/a><\/span><\/li>\n
  195. B. Fluegel, Y. Zhnag<\/strong>, H. M. Cheong, A. Mascarenhas, J. Geisz, J. M. Olson, and A. Duda, Exciton absorption bleaching studies in ordered GaInP<\/em>, Phys. Rev. B 55, 13647 (1997).\u00a0(pdf)<\/a><\/span><\/li>\n
  196. Y. Zhang<\/strong> and A. Mascarenhas, Orientational superlattices formed by CuPt ordered zinc-blende\u00a0 semiconductor alloys<\/em>, Phys. Rev. B 55, 13100 (1997).\u00a0(pdf)<\/a> Erratum:\u00a0(pdf)<\/a><\/span><\/li>\n
  197. Y.\u00a0 Zhang<\/strong>, A. Mascarenhas, P. Ernst, F. A. J. M. Driessen, D. J. Friedman, K. A. Bertness, J. M. Olson, C. Geng, F. Scholz, and H. Schweizer, Effects of strain, substrate misorientation, and excitonic transition on the optical polarization of ordered zinc-blende semiconductor alloys<\/em>, J. Appl. Phys. 81, 6365 (1997).\u00a0(pdf)<\/a><\/span><\/li>\n
  198. P. Ernst, Y. Zhang<\/strong>, F. A. J. M. Driessen,A.Mascarenhas, E. D. Jones, C. Geng, F.\u00a0 Scholz, and H. Schweizer, Magnetoluminescence study on the effective mass anisotropy of CuPtB<\/span><\/sub>-ordered GaInP2 <\/span><\/sub>\u00a0alloys<\/em>, J. Appl. Phys. 81, 2814 (1997).\u00a0(pdf)<\/a><\/span><\/li>\n
  199. J. Mirecki-Millunchick, R. D. Twesten, D. M. Follstaedt, S. R. Lee, E. D. Jones, Y. Zhang<\/strong>, S. P. Ahrenkiel, and A. Mascarenhas, Lateral composition modulation in AlAs\/InAs short period superlattices grown on InP(001)<\/em>, Appl. Phys. Lett. 70, 1402 (1997).\u00a0(pdf)<\/a><\/span><\/li>\n
  200. A. Mascarenhas, Y. Zhang<\/strong>, R. Alonso, and S. Froyen, Orientational superlattices in ordered GaInP2<\/span><\/sub><\/em>, Solid State Commun. 100, 47 (1996). (pdf)<\/a><\/span><\/li>\n
  201. P. Ernst, C. Geng, F. Scholz, H. Schweizer, Y. Zhang<\/strong> and A. Mascarenhas, Band-gap reduction and valence-band splitting of ordered GaInP2<\/span><\/sub><\/em>, Appl. Phys. Lett. 67, 2347 (1995).\u00a0(pdf)<\/a><\/span><\/li>\n
  202. Y. Zhang<\/strong> and A. Mascarenhas, Conduction and valence band effective masses in spontaneously ordered GaInP2<\/span><\/sub><\/em>, Phys. Rev. B 51, 13162 (1995).\u00a0(pdf)<\/a><\/span><\/li>\n
  203. Y. Zhang,<\/strong> M. D. Sturge, K. Kash, B. P. Van der Gaag, A. S. Gozdz, L. T. Florez, and J. P. Harbison, Temperature dependent time-resolved exciton luminescence in GaAs\/AlGaAs quantum wires and quantum dots<\/em>, Superlattices and Microstructures 17, 201 (1995).\u00a0(pdf)<\/a><\/span><\/li>\n
  204. Y. Zhang,<\/strong> M. D. Sturge, K. Kash, B. P. Van der Gaag, A. S. Gozdz, L. T. Florez, and J. P. Harbison, Temperature dependence of luminescent efficiency, exciton localization and exciton transfer in GaAs\/AlxGa1-xAs quantum wires and quantum dots<\/em>, Phys. Rev. B 51, 13303 (1995).\u00a0(pdf)<\/a><\/span><\/li>\n
  205. Yitong Gu, Y. Zhang<\/strong>, M. D. Sturge, K. Kash, B. P. Van der Gaag, A. S. Gozdz, L. T. Florez, and J. P. Harbison, Strain-confined wires and dots at a GaAs\/Alx<\/span><\/sub>Ga1-x<\/span><\/sub>As Interface<\/em>, Superlattices and Microstructures 17, 67 (1995).\u00a0(pdf)<\/a><\/span><\/li>\n
  206. Y. Zhang, <\/strong>Motion of electrons in semiconductors under inhomogeneous strain, with application to laterally confined quantum wells<\/em>, Phys. Rev. B 49, 14352 (1994).\u00a0(pdf)<\/a><\/span><\/li>\n
  207. Y. Zhang,<\/strong> M. D. Sturge, K. Kash, B. P. Van der Gaag, A. S. Gozdz, L. T. Florez, and J. P. Harbison, Transient photoluminescence of GaAs\/AlGaAs quantum wires<\/em>, J. Lumin. 60\/61, 400 (1994).\u00a0(pdf)<\/a><\/span><\/li>\n
  208. Y. Zhang<\/strong>, W. Ge, M.D. Sturge, J. Zheng, and B. Wu, Phonon sidebands of excitons bound to isoelectronic impurities in semiconductors<\/em>, Phys. Rev. B 47, 6330 (1993).\u00a0(pdf)<\/a><\/span><\/li>\n
  209. W. Ge, Y. Zhang<\/strong>, D. Mi, J. Zheng, B. Yan, and B. Wu, Comment on:” Radiative and nonradiative recombination of bound excitons in GaP:N” (Part I and IV)<\/em>, Phys. Rev. B 46, 5004 (1992).\u00a0(pdf)<\/a><\/span><\/li>\n
  210. Y. Zhang<\/strong>, Acceptor-like bound excitons in semiconductors<\/em>, Phys. Rev. B 45, 9025 (1992).\u00a0(pdf)<\/a><\/span><\/li>\n
  211. Y. Zhang<\/strong>, J. Zheng and B. Wu, Theoretical investigation on the pressure behavior of nitrogen bound excitons in GaP and GaAs1-xPx<\/em>,\u00a0 Acta Physica Sinica 40, 1329 (1991).\u00a0(pdf)<\/a><\/span><\/li>\n
  212. Y. Zhang<\/strong>, J. Zheng, D. Mi, B. Yan, and B. Wu, “Similarity law” in phonon spectrum of bound exciton luminescence in GaP:N<\/em>,\u00a0 J. Phys.: Condens. Matter 2, 5219 (1990).\u00a0(pdf)<\/a><\/span><\/li>\n
  213. Q. Yu, Y. Zhang<\/strong>, J. Zheng, and B. Yan, Radiative recombination between isoelectronic trap and Zn acceptor in GaP:N, Zn<\/em>,\u00a0 Chinese Journal of Semiconductors 10, 717 (1989).\u00a0(pdf)<\/a><\/span><\/li>\n
  214. Y. Zhang<\/strong>, Q. Yu, J. Zheng, B. Yan, B. Wu, W. Ge, Z. Xu and J. Xu, The phonon sidebands of NNi\u00a0pair emission in GaP:N<\/em>,\u00a0 Solid State Commun. 68, 707 (1988).\u00a0(pdf)<\/a><\/span><\/li>\n
  215. Y. Zhang<\/strong>, Q. Yu, J. Zheng, B. Yan, B. Wu, Z. Wang, G. Li, and H. Han, NNi\u00a0emission in GaAs0.15P0.85:N under hydrostatic pressure<\/em>, Chinese Phys. Lett. 5, 353 (1988).\u00a0(pdf)<\/a><\/span><\/li>\n
  216. Y. Zhang<\/strong>, Q. Yu, J. Zheng, B. Yan, B. Wu, Z. Wang, G. Li, and H. Han, Pressure behaviour of bound excitons in GaAs1-xPx:N<\/em>, Acta Physica Sinica 37, 1925 (1988).\u00a0(pdf)<\/a><\/span><\/li>\n
  217. J. Zheng and Y. Zhang<\/strong>, Energy transfer and thermal quenching processes of bound exciton luminescence in GaP:N<\/em>, Scientia Sinica A29, 870 (1986).\u00a0(pdf)<\/a><\/span><\/li>\n
  218. J. Zheng and Y. Zhang<\/strong>, Coupling of nitrogen bound excitons with phonons in GaP:N<\/em>, Scientia Sinica A29, 862 (1986).\u00a0(pdf)<\/a><\/span><\/li>\n
  219. J. Zheng and Y. Zhang<\/strong>, A study of recombination kinetics of bound excitons in GaP:N<\/em>, J. Xiamen University (Natural Science), 24, 314 (1985).\u00a0(pdf)<\/a><\/span><\/li>\n<\/ol>\n

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