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Professor Lin, Chih-Ming

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Professor CHIH-MING LIN

 

 

 

Office:
42521(phys Rom714 )

lab


 

   
  Education
  1. Ph.D. Department of Electrophysics, National Chiao Tung University 1997
  2. M.S Department of Physics, Tamkang University 1989
  3. B.S Department of Physics, National Chang Hwa Normal University 1984
  Professional Experience
Current position:
  1. Professor, Department of Physics, National Tsing Hua University
Experience:
  1. National Chiao Tung University Postdoctoral Researcher, Physics 1997-1998
   
  Research Interests and achievement
Updated on Feb 20, 2017
1. High pressure:
For last twenty years, using synchrotron radiation source, as National Synchrotron Light Source (NSLS), Cornell High Energy Synchrotron Source (CHESS), Advanced Photon Source (APS), and Advanced Light Source (ALS) in U.S.A. and Super Photon ring-8 GeV (SPring8) in Japan, study the physical properties of semiconductor under high pressure (Diamond Anvil Cell). Recently, my works tend to the physical properties of high-entropy alloys (HEAs) and Topological insulators (TIs) materials under high pressure and the process of synthesis of high-entropy alloys (HEAs) and Topological insulators (TIs) materials.

2. Zinc oxide and Aluminum doped Zinc oxide monolayer synthesis:
In the aspect of zinc oxide nanorods and thin film growth, the nano-column and the film growth machine were studied in the transverse high temperature furnace and Atomic Layer Deposition (ALD) with the national synchronous radiation center BL17B thin film X-ray analysis Discussion, the use of control of the growth of the atmosphere to store reaction time, the successful growth of high quality zinc oxide nano - column and film. Zinc oxide film growth to diethyl zinc (diethylzinc, DEZn) and deionized water as a precursor, growth of zinc oxide epitaxial film on the c-plane and m-side sapphire substrate. (FIM) and the traditional continuous airflow method for the growth of c-plane sapphire substrate in the zinc oxide structure and luminescence characteristics of the changes in the m-side sapphire substrate and the growth of non-polar Epitaxial film. Changing the growth temperature by XRD shows that the growth temperature window is better at 40-160oC, which is better than the traditional continuous airflow method.

3. Science education:
Dr. Lin research has embraced physical education with a special emphasis on the nano-science educational projects. He is currently the principal investigator of the National Science and Technology Program for Nanoscience and Nanotechnology.
 
   
  Selected Publications
  1. Y.C. Kao, T. Huang, D.Y. Lin, Y.S. Huang, K.K. Tiong, H.Y Lee, J.M. Lin, H.S. Sheu, and C.M. Lin*, " Anomalous structural phase transition properties in ReSe2 and Au-doped ReSe2 ", J. Chem. Phys. 137, 024509 (2012); doi: 10.1063/1.4733985
  2. Z. W. Chen, J. S. Lee*, T. Huang, C.M. Lin, " Phase transitions of pure and Ba-doped BiFeO3 under high pressure ", Solid State Communications 152, 1613 (2012).
  3. J.M. Huang, C.S. Ku, H.Y. Lee*, C.M.Lin, S.Y. Chen, " Growth of high-quality epitaxial ZnO films on (10–10) sapphire by atomic layer deposition with flow-rate interruption method ", Surf. Coat. Technol., doi:10.1016/j.surfcoat.2012.05.067 (2012).
  4. C.M. Lin*, K.L. Lin, Y.K. Chern, C.H. Hsu, H.S. Sheu, Y.F. Liao, Y.W. Suen, S.R. Jian* and J.Y. Juang*, " Pressure-induced structural phase transition in bulk Zn0.98Mn0.02O by angular dispersive X-ray diffraction ", J. Alloys and Compounds 604C, 298 (2014); 10.1016/j.jallcom.2014.03.055.
  5. . C.M. Lin*, K.L. Lin, Y.K. Chern, Y.K. Lin, Y.C. Chuang, Y.F. Liao, Y.W. Suen, S.R. Jian* and J.Y. Juang*, " Pressure-Induced Phase Transitions in InAs Studied by Angular-Dispersive X-ray Diffraction and Raman Spectroscopy ", Science of Advanced Materials 7, 1039 (2015).
  6. J. M, Huang, C. S. Ku, C.M. Lin*, S. Y. Chen, and H.Y. Lee*, " In situ Al-doped ZnO films by atomic layer deposition with an interrupted flow ", Material Chemistry and Physics 165, 245 (2015).
  7. K.L. Lin, C.M. Lin*, Y.S. Lin, S.R. Jian, Y.F. Liao, Y.C. Chuang, C.S. Wang, and J.Y. Juang*, " Structural properties of pressure-induced structural phase transition of Si-doped GaAs by angular dispersive X-ray diffraction ", Appl. Phys. A 122(2), 1 (2016); DOI 10.1007/s00339-016-9660-3.
  8. J.M. Huang, S.Y. Tsai, C.S. Ku*, C.M. Lin*, S.Y. Chen and H.Y. Lee*, " Enhanced electrical properties and field emission characteristics of AZO/ZnO-nanowire core–shell structures ", Phys. Chem. Chem. Phys. 18, 15251 (2016).
  9. C.M. Lin*, H.T. Liu, S.Y. Zhong, C.H. Hsu, Y.T. Chiu, M.F. Tai *, J.Y. Juang*, Y.C. Chuang and Y.F. Liao, " Structural transitions in nanosized Zn0.97Al0.03O powders under high pressure analyzed by in-situ angle-dispersive X-ray diffraction ", Materials 9, 561; doi:10.3390/ma9070561 (2016).
    • All Publications (Expansible)
    • 01. W.C.Chou, F.R.Chen, T.Y.Chiang, H.Y.Shin, C.Y.Sun, C.M. Lin, K.C.Yu, C.T.Tsai, and D.S.Chuu, "Growth and Characterization of the CdZnMnTe Crystals", Jonl. Crys. Growth 169 ,747 (1996).
    • 02. C.M. Lin, D.S.Chuu, T.J.Yang, W.C.Chou, J.Xu, and E.Huang, "Raman Spectroscopy Study of ZnSe and Zn0.84Fe0.16Se at High Pressure", Phys. Rev. B 55(20), 13641 (1997).
      03. W.C.Chou, C.M. Lin, R.S.Ro, C.S.Ho, D.Y.Hong, C.S.Yang, D.S.Chuu, T.J.Yang, J.Xu, and E.Huang, "A Raman Study of ZnSe at High Pressure", Chin. Jonl. Phys. 35(3), 266 (1997).
      04. C.M. Lin, M.H.Tsai, T.J.Yang, and D.S.Chuu, "The anion-terminated zinc-blende CdS(100) surface", Phys. Rev. B 56, 9209 (1997).
      05. D.S.Chuu and C.M. Lin, "Raman Spectroscopy and the Pressure Effect of the Diluted Magnetic Semiconductors Zn1-xMnxSe ", Chin. Jonl. Phys. 35(4), 509 (1997).
      06. J.H. Pei, C.M. Lin, and D.S.Chuu "Characteration of CdTe film grown on a (111) Si substrate ", Chin. Jonl. Phys. 36(1), 44 (1997).
      07. C.M. Lin, D.S.Chuu, J.Xu, E.Huang, W.C.Chou, J.Z.Hu, and J.H.Pei, "High-Pressure Phase Transitions in Zn1-xMxSe (M=Cd, Fe, and Mn)", Phys. Rev. B 58(1), 16-19 (1998).
      08. C.M. Lin, D.S.Chuu, W.C.Chou, J.Xu, E.Huang, J.Z.Hu, and J.H.Pei, "Phase Transition of Zn0.84Fe0.16Se under High Pressure", Solid State Communi. 107(5), 217-221 (1998).
      09. W.C. Chou, C.S. Ro, D.Y. Hong, C.S. Yang, C.Y. Lin, T.Y. Lin, K.C. Chiu, T.R. Yang, C.M. Lin, D.S. Chuu, and W.Y. Uen, "Optical Properties of Zn1-x.MnxSe Epilayers Grown by Molecular Beam Epitaxy", Chin. Jonl. Phys. 36(2-1), 120 (1998).
      10. C.S. Yang, C.S. Ro, W.C. Chou, C.M. Lin, D.S.Chuu, J.Hu, E.Huang, and J.Xu, "Energy-dispersive x-ray diffraction and Raman scattering of Zn1-xMnxSe bulk crystals at high pressure", Jonl. Appl. Phys. 85(12), 8092 (1999).
      11. C.M. Lin* and D.S. Chuu, " Raman spectroscopy study of Zn1-x.FexSe under high-pressure ", J.  Raman Spectrosc. 30, 951 (1999).
      12. C.M. Lin and D.S. Chuu, "High-pressure phase transitions in Zn0.83.Mn0.17Se thin film", Physics Letters A 266, 435 (2000).
      13. C.M. Lin and C.Y. Lin, "A Study the phonon vibrational mode of Zn1-xMgxSe under modified random-element isodisplacement (MREI) model", Jonl. National Hsinchu Teachers College 13, 101 (2000).
      14. C.M. Lin and D.S. Chuu, "Pressure-induced phase transitions in bulk Zn1-x.MnxSe", Physica B 304, 221 (2001).
      15. W.D.Lee, C.M. Lin, Y.H. Huang, K.T. Wu, and C.C. Chen, " Data Processing of X-ray Absorption Fine Spectroscopy-part 1 " Journal of LEE-MING INSTIYUTE of TECHNOLOGY, Vol. 15 No. 1, 33 (2002).
      16. W.D.Lee, C.M. Lin, Y.H. Huang, K.T. Wu, and C.C. Chen, " Data Processing of X-ray Absorption Fine Spectroscopy-part 2 " Journal of LEE-MING INSTIYUTE of TECHNOLOGY, Vol. 15 No. 2, 57 (2003).
      17. W.D.Lee, C.M. Lin, H.C. Lo, C.W. Wu, Y.H. Wu, S.H. Lin, and Y.C. Chen, " The Study of A Change of Phases in Nano-size TiO2 " Journal of LEE-MING INSTIYUTE of TECHNOLOGY, Vol. 16 No. 1, 79 (2003).
      18. W.D.Lee, C.M. Lin, Y.J. Shen, and W.J. Lin, " The Study of A Change of Phases in Nano-Size Bi2O3 " Journal of LEE-MING INSTIYUTE of TECHNOLOGY, Vol. 16 No. 1, 87 (2003).
      19. C.M. Lin, J.L. Chao, and C.C. Lin, "Metastable phase transition of orthoenstatite (MgSiO3) under high pressure", Solid State Sciences 7, 293 (2005).
      20. T.W. Hunag, Y.H. Huang, T.H. Tu, C.H. Lee, and C.M. Lin, " X-ray diffraction and absorption spectroscopy study of the order and disorder tranisition of (FePt)1-xCux nanoparticles", IEEE trans. magn. 41(2), 941 (2005).
      21. C.M. Lin, C.T. Chia, Y.J. Shu, and Y.K. Tseng, " High-pressure Phase Transition of Nano-sized ZnO Crystals Studied by Raman Scattering ", Chinese Journal of Light Scattering 17 (3), 216 (2005).
      22. C.M. Lin, C.T. Chia, V.I. Mashanov, and H.H. Cheng, " Strain of the Micro-sized Cone-shape GeSi Alloy Film Determined by Raman Scattering ", Chinese Journal of Light Scattering 17 (3), 283 (2005).
      23. S.H.Lin, M.N.Chou, S.Y.Lin, T.M.Wu, C.M. Lin, " Preparation and Characterization of Polypyrrole/Multi-walled Carbon Nanotube Composites ", Journal of Engineering, National Chung Hsing University, 17 (1), 25 (2006).
      24. P.J. Chang, C.T. Chia, I.N. Lin, J.F. Lee, C.M. Lin, and K.T. Wu, "Characterizing xBa(Mg1/3Ta2/3)O3+(1-x)Ba(Mg1/3Nb2/3)O3 microwave ceramics using extended x-ray absorption fine structure method", Appl. Phys. Lett. 88, 242907 (2006).
      25. W.P. Huang, H.H. Cheng, S.R. Jian, D.S. Chuu, J.Y. Hsieh, C.M. Lin, and M.S. Chiang, "Localized electrochemical oxidation of p-GaAs(100) using atomic force microscopy with a carbon nanotube probe", Nanotechnology 17, 3838 (2006).
      26. C.M. Lin*, T.L. Hung, Y.H. Huang, K.T. Wu, M.T. Tang, C.H. Lee, C.T. Chen, and Y.Y. Chen, " Size-dependent lattice structure of palladium studied by x-ray absorption spectroscopy ", Phys. Rev. B 75, 125426 (2007).
      27. C.T. Yuan, Y.C. Lin, Y.N. Chen, Q.L. Chiu, W.C. Chou, D.S. Chuu, W.H. Chang, H.S. Lin, R.C. Ruaan, and C.M. Lin, " Studies on the electronic and vibrational states of colloidal CdSe/ZnS quantum dots under high pressures", Nanotechnology 18, 185402 (2007).
      28. C.M. Lin*, and D.S.Chuu, "Raman spectroscopy study of Zn1−xMnxSe thin films under high-pressure", Jonl. Appl. Phys. 101, 103535 (2007).
      29. W.F. Lee, C.M. Lin*, and W.H. Tarng, " Using 3D Computer Animation to Assist Elementary Students in Learning the Conception of Magnetic Field ", Chinese Physics Education, 8(1), 17 (2007).
      30. J.H. Liang, C.Y. Bai, D.S. Chao, and C.M. Lin, " Post-annealing temperature dependence of blistering in high-fluence ion-implanted H in Si <100> ", Nuclear Instruments and Methods in Physics Research B 266, 1349 (2008).
      31. J.H. Liang, C.Y. Bai, D.S. Chao, and C.M. Lin, " Influence of post-annealing time on blistering evolution in Si <100> implanted with high-fluence H ions ", Nuclear Instruments and Methods in Physics Research B 266, 1562 (2008).
      32. Y.T. Liu, W.H. Tarng, C.M. Lin, T.C. Fan, and K.Y. Pan, " The Development of a Virtual Synchrotron Light Source for Educational Applications ", Chinese Physics Education, 9(1), 17 (2008).
      33. C.M. Lin*, H.S. Sheu, M.H. Tsai, B.R. Wu, and S.R. Jian, " High pressure induced phase transition in sulfur doped indium phosphide: an angular-dispersive X-ray diffraction and Raman study ", Solid State Communications 149, 136 (2009).
      34. J.M. Chen*, T.L. Chou, J.M. Lee, S.A. Chen, T.S. Chan, T.H. Chen, K.T. Lu, W.T. Chuang, H.S. Sheu, S.W. Chen, C.M. Lin, N. Hiraoka, H. Ishii, K.D. Tsuei, and T.J. Yang, " Pressure-induced structural distortion of TbMnO3: A combined x-ray diffraction and x-ray absorption spectroscopy study ", Phys. Rev. B 79, 165110 (2009).
      35. C.S. Ku, J.M. Huang, C.M. Lin*, H.Y. Lee*, " Fabrication of epitaxial ZnO films by atomic-layer deposition with interrupted flow ", Thin Solid Films 518, 1373 (2009).
      36. Lin, H.-J., Lin, D.-Y., Hong, J.-Z., Yang, C.-S., Lin, C.-M., Lin, C.-F. " A study of the grain size and electric properties of Mn-doped ZnO thin films grown by plasma-assisted molecular beam epitaxy ", Physica Status Solidi (C) Current Topics in Solid State Physics volume 6, issue 6, year 2009, pp. 1468 - 1471.
      37. C.S. Ku, H.Y. Lee*, J.M. Huang, C.M. Lin*, " Epitaxial growth of ZnO films at extremely low temperature by atomic layer deposition with interrupted flow ", Materials Chemistry and Physics 120, 236 (2010).
      38. C.S. Ku, H.Y. Lee*, J.M. Huang, C.M. Lin*, " Epitaxial Growth of m-Plane ZnO Thin Films on (1010) Sapphire Substrate by Atomic Layer Deposition with Interrupted Flow ", Crystal Growth & Design 10(4), 1460 (2010).
      39. T. Huang, S.R. Shieh, A. Akhmetov, X. Liu, C.M. Lin and J.S. Lee, " Pressure-induced phase transition in BaCrO4 ", Phys. Rev. B 81, 214117 (2010). (SCI) (2010 I.F.:3.475, ▲:5)
      40. C.M. Lin*, K.T. Wu, T.L. Hung, H.S. Sheu, M.H. Tsai, J.F. Lee, and J.J. Lee, " Phase transitions in Lu2O3 under high-pressure ", Solid State Communications 150, 1564 (2010).
      41. T. Huang, J.S. Lee, J. Kung, and C.M. Lin*, " Study of monazite under high pressure ", Solid State Communications 150, 1845 (2010).
      42. Y.M. Chang, S.R. Jian*, H.Y. Lee, C.M. Lin and J.Y. Juang, " Enhanced visible photoluminescence from ultrathin ZnO films grown on Si-nanowires by atomic layer deposition ", Nanotechnology 21, 385705 (2010).
      43. C.S. Ku, J.M. Huang, C.Y. Cheng, C.M.Lin and H.Y. Lee*, " Annealing effect on the optical response and interdiffusion of n-ZnO/p-Si(111) heterojunction grown by atomic layer deposition ", Appl. Phys. Lett. 97, 181915 (2010).
      44. T.W. Huang, C.M. Lin, H.S. Sheu, T.L. Hung, K.W. Yeh, P.C. Hsu,Y.L. Huang, F.C. Hsu, M.K. Wu, " Raman and X-ray diffraction studies of superconducting FeSe under pressure ", Physica C 470, S502 (2010).
      45. D.Y. Lin, T.P. Huang, F.L. Wu, C.M. Lin, Y.S. Huang and K.K. Tiong, " Anisotropy of photoluminescence in layered semiconductors ReS2 and ReS2:Au ", Solid State Phenomena 170, 135 (2011).
      46. C.Y. Yen, S.R. Jian, G.J. Chen, C.M. Lin, H.Y. Lee, W.C. Ke, Y.Y. Liao, P.F. Yang, C.T. Wang, Y.S. Lai, Jason S.C. Jang, J.Y. Juang*, " Influence of annealing temperature on the structural, optical and mechanical properties of ALD-derived ZnO thin films ", Applied Surface Science 257, 7900 (2011).
      47. M.J. Deng, J.K. Chang, C.C. Wang, K.W. Chen, C.M. Lin, M.T. Tang, J.M. Chen and K.T. Lu, " High-performance electrochemical pseudo-capacitor based on MnO2 nanowires/Ni foam as electrode with a novel Li-ion quasi-ionic liquid as electrolyte ", Energy & Environmental Science DOI: 10.1039/c1ee01603b (2011).
      48. W.H. Tarng*, C.M. Lin, Yen Tzu Liu, Yu Neng Tong and Kuan Yeu Pan, " A virtual reality design for learning the basic concepts of synchrotron light source ", Int. J. Computational Science and Engineering 6(3), 175 (2011).
      49. Y.M. Chang, J. Shieh, P.Y. Chu, H.Y. Lee, C.M. Lin, and J.Y. Juang*, " Enhanced Free Exciton and Direct Band-Edge Emissions at Room Temperature in Ultrathin ZnO Films Grown on Si Nanopillars by Atomic Layer Deposition ", ACS Appl. Mater. Interfaces 3, 4415 (2011).
      50. J.H. Liang*, C.H. Hu, C.M. Lin, " Silicon orientation effects on surface blistering characteristics due to hydrogen ion implantation ", Surface & Coatings Technology 206, 820 (2011).
      51. J.H. Liang*, Y.Z. Chen, C.M. Lin, " Characterization of radiation damage induced by B and B4 ion implantation into silicon ", Nuclear Instruments and Methods in Physics Research B 269, 3217 (2011).
      52. Jennifer Kung*, Y.J. Lin, C.M. Lin, " Phonon behavior of CaSnO3 perovskite under pressure ", J. Chem. Phys. 135, 224507 (2011).
      53. Y.M. Chang, J.M. Huang, C.M.Lin, H.Y. Lee, S.Y. Chen, and J.Y. Juang*, " Optoelectronic Properties of Density-Controlled ZnO Nanopillar Arrays ", J. Phys. Chem. C 116, 8332 (2012).
      54. Y.M. Chang, M.C. Liu, P.H. Kao, C.M. Lin, H.Y. Lee and J.Y. Juang*, " Field Emission in Vertically Aligned ZnO/Si-Nanopillars with Ultra Low Turn-On Field ", ACS Appl. Mater. Interfaces 4, 1411 (2012). (SCI) (2015 I.F.:3.475, ▲:5)
      55. J.H. Liang, C.H. Hu, C.Y. Bai, D.S. Chao, C.M. Lin, " Thermal evolution of surface blistering and exfoliation due to ion-implanted hydrogen monomers into Si <1 1 1> ", Physica B 407, 3020 (2012). (SCI) (2015 I.F.:1.352, ▲:5)
      56. Y.C. Kao, T. Huang, D.Y. Lin, Y.S. Huang, K.K. Tiong, H.Y Lee, J.M. Lin, H.S. Sheu, and C.M. Lin*, " Anomalous structural phase transition properties in ReSe2 and Au-doped ReSe2 ", J. Chem. Phys. 137, 024509 (2012); doi: 10.1063/1.4733985 (2015 I.F.:2.894, ▲:5)
      57. Z. W. Chen, J. S. Lee*, T. Huang, C.M. Lin, " Phase transitions of pure and Ba-doped BiFeO3 under high pressure ", Solid State Communications 152, 1613 (2012). (2015 I.F.:1.458, ▲:5)
      58. Y. M. Chang, P. H. Kao, M.C. Liu, C.M. Lin, H. Y. Lee, and J. Y. Juang*, " Fabrication and optoelectronic properties of core–shell biomimetic ZnO/Si nanoball arrays ", RSC Adv. 2, 11089 (2012); doi: 10.1039/c2ra21817h
      59. J.M. Huang, C.S. Ku, H.Y. Lee*, C.M.Lin, S.Y. Chen, " Growth of high-quality epitaxial ZnO films on (10–10) sapphire by atomic layer deposition with flow-rate interruption method ", Surf. Coat. Technol., doi:10.1016/j.surfcoat.2012.05.067 (2012).
      60. Y.M. Chang, M.L. Lin, T.Y. Lai, H.Y. Lee, C.M. Lin, Y.C.S Wu, and J.Y. Juang*, " Field emission properties of gold nanoparticle-decorated ZnO nanopillars ", ACS Appl. Mater. Interfaces 4, 6676 (2012); dx.doi.org/ 10.1021/am301848a.
      61. W. H. Tarng, B. S. Lee, C.M.Lin, C. Y. Lee and H. H. Liou, " Design of a physical game for learning the nano concepts of the butterfly effect ", International Journal of Research and Reviews in Computer Science, vol. 3, no. 5 (2012).
      62. W. H. Tarng, S. H. Tsai, C.M.Lin, C. Y. Lee and H. H. Liou, " Design of physical games for learning the lotus effect ", International Journal of Computer Science & Information Technology, vol. 4, no. 6. (2012).
      63. Y.M. Chang, P.H. Kao, H.M. Tai, H.W. Wang, C.M. Lin, H.Y. Lee, and and J.Y. Juang*, " Enhanced field emission characteristics in metal-coated Si-nanocones ", Phys. Chem. Chem. Phys. dx.doi.org/ 10.1039/c3cp50948f (2013).
      64. C.C. Huang, C.C. Kao, D.Y. Lin*, C.M. Lin, F.L. Wu, R.H. Horng, and Y.S. Huang, " A Comprehensive Study on the Optical Properties of Thin Gold-Doped Rhenium Disulphide Layered Single Crystals ", Japanese Journal of Applied Physics 52, 04CH11 (2013).
      65. C.M. Lin*, K.L. Lin, Y.K. Chern, C.H. Hsu, H.S. Sheu, Y.F. Liao, Y.W. Suen, S.R. Jian* and J.Y. Juang*, " Pressure-induced structural phase transition in bulk Zn0.98Mn0.02O by angular dispersive X-ray diffraction ", J. Alloys and Compounds 604C, 298 (2014); 10.1016/j.jallcom.2014.03.055.
      66. M.J. Deng, C.C. Wang, P. J. Ho, C.M. Lin, J.M. Chen* and K. T. Lu*, " Facile electrochemical synthesis of 3D nanoarchitectured CuO electrodes for high performance supercapacitors ", J. Mater. Chem. A 2, 12857 (2014).
      67. C.M. Lin*, K.L. Lin, Y.K. Chern, Y.K. Lin, Y.C. Chuang, Y.F. Liao, Y.W. Suen, S.R. Jian* and J.Y. Juang*, " Pressure-Induced Phase Transitions in InAs Studied by Angular-Dispersive X-ray Diffraction and Raman Spectroscopy ", Science of Advanced Materials 7, 1039 (2015).
      68. J. M, Huang, C. S. Ku, C.M. Lin*, S. Y. Chen, and H.Y. Lee*, " In situ Al-doped ZnO films by atomic layer deposition with an interrupted flow ", Material Chemistry and Physics 165, 245 (2015).
      69. J.H. Liang, H.Y. Hsieh, C.W. Wu, C.M. Lin, " Dependence of implantation sequence on surface blistering characteristics due to H and He ions co-implanted in silicon ", Nuclear Instruments and Methods in Physics Research B 365, 128 (2015).
      70. K.L. Lin, C.M. Lin*, Y.S. Lin, S.R. Jian, Y.F. Liao, Y.C. Chuang, C.S. Wang, and J.Y. Juang*, " Structural properties of pressure-induced structural phase transition of Si-doped GaAs by angular dispersive X-ray diffraction ", Appl. Phys. A 122(2), 1 (2016); DOI 10.1007/s00339-016-9660-3.
      71. J.M. Huang, S.Y. Tsai, C.S. Ku*, C.M. Lin*, S.Y. Chen and H.Y. Lee*, " Enhanced electrical properties and field emission characteristics of AZO/ZnO-nanowire core–shell structures ", Phys. Chem. Chem. Phys. 18, 15251 (2016).
      72. C.M. Lin*, H.T. Liu, S.Y. Zhong, C.H. Hsu, Y.T. Chiu, M.F. Tai *, J.Y. Juang*, Y.C. Chuang and Y.F. Liao, " Structural transitions in nanosized Zn0.97Al0.03O powders under high pressure analyzed by in-situ angle-dispersive X-ray diffraction ", Materials 9, 561; doi:10.3390/ma9070561 (2016).
       

 

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