發表文獻

[1] H. T. Chin, H. T. Nguyen, S. H. Chen, Y. F. Chen, W. H. Chen, Z. Y. Chou, et al., "Reaction-limited

graphene CVD surpasses silicon production rate," 2d Materials, vol. 8, Jul 2021.

[2] H. T. Chin, M. Hofmann, S. Y. Huang, S. F. Yao, J. J. Lee, C. C. Chen, et al., "Ultra-thin 2D transition

metal monochalcogenide crystals by planarized reactions," Npj 2d Materials and Applications, vol. 5, Mar 2021.

[3] D. T. Vu, T. T. Vu-Le, V. Nguyen, Q. M. Le, C. R. C. Wang, L. K. Chau, T. S. Yang, M. W. Y. Chang, C. I. Lee, C. C. Ting, J. Y. Lin, H. C. Kan, and C. C. Hsu, "Gold nanorods conjugated upconversion nanoparticles nanocomposites for simultaneous bioimaging, local temperature sensing and photothermal therapy of OML-1 oral cancer cells," International Journal of Smart and Nano Materials, vol. 12, no. 1, pp. 49-71, Jan 2021

[4] J. H. Chen, S. K. Chiu, J. D. Luo, S. Y. Huang, H. A. Ting, M. Hofmann, Y. P. Hsieh, and C. C. Ting, "Robust formation of amorphous Sb2S3 on functionalized graphene for high-performance optoelectronic devices in the cyan-gap," Scientific Reports, vol. 10, no. 1, Sep 2020, Art no. 14873

[5] D. R. Chen, S. K. Chiu, M. P. Wu, C. C. Hsu, C. C. Ting, M. Hofmann, and Y. P. Hsieh, "Ink-jet patterning of graphene by cap assisted barrier-guided CVD," Rsc Advances, vol. 9, no. 50, pp. 29105-29108, Sep 2019

[6] C. T. Wang, C. C. Ting, P. C. Kao, S. R. Li, and S. Y. Chu, "Effects of Buffer Layer Treatments on the Characteristics and Performances of OLEDs," Ecs Journal of Solid State Science and Technology, vol. 7, no. 9, pp. R125-R130, Aug 2018

[7] C. T. Wang, C. C. Ting, P. C. Kao, S. R. Li, and S. Y. Chu, "Improvement of OLED performance by tuning of silver oxide buffer layer composition on silver grid surface using UV-ozone treatment," Applied Physics Letters, vol. 113, no. 5, Jul 2018, Art no. 051602

[8] D. T. Vu et al., "Enhancing Upconversion Luminescence Emission of Rare Earth Nanophosphors in Aqueous Solution with Thousands Fold Enhancement Factor by Low Refractive Index Resonant Waveguide Grating," Acs Photonics, vol. 5, no. 8, pp. 3263-+, Aug 2018

[9] C. T. Wang, C. C. Ting, P. C. Kao, S. R. Li, and S. Y. Chu, "Enhanced optical, electrical, and mechanical characteristics of ZnO/Ag grids/ZnO flexible transparent electrodes," Journal of Applied Physics, vol. 122, no. 8, Aug 2017, Art no. 085501

[10] H. T. Chin, C. H. Shih, Y. P. Hsieh, C. C. Ting, J. N. Aoh, and M. Hofmann, "How does graphene grow on complex 3D morphologies?," Physical Chemistry Chemical Physics, vol. 19, no. 34, pp. 23357-23361, Sep 2017

[11] K. W. Chang, Y. P. Hsieh, C. C. Ting, Y. H. Su, and M. Hofmann, "Increasing the doping efficiency by surface energy control for ultra-transparent graphene conductors," Scientific Reports, vol. 7, Aug 2017, Art no. 9052

[12] C. T. Wang, C. C. Ting, P. C. Kao, S. R. Li, and S. Y. Chu, "Investigation of surface energy, polarity, and electrical and optical characteristics of silver grids deposited via thermal evaporation method," Applied Surface Science, vol. 360, pp. 349-352, Jan 2016

[13] C. T. Wang, C. C. Ting, P. C. Kao, S. R. Li, and S. Y. Chu, "Improvement of optical and electric characteristics of MoO3/Ag film/MoO3 flexible transparent electrode with metallic grid," Journal of Applied Physics, vol. 120, no. 19, Nov 2016, Art no. 195305

[14] J. H. Lin, H. Y. Liou, C. D. Wang, C. Y. Tseng, C. T. Lee, C. C. Ting, H. C. Kan, and C. C. Hsu, "Giant Enhancement of Upconversion Fluorescence of NaYF4:Yb3+,Tm3+ Nanocrystals with Resonant Waveguide Grating Substrate," Acs Photonics, vol. 2, no. 4, pp. 530-536, Apr 2015

[15] Y. P. Hsieh, B. J. Hong, C. C. Ting, and M. Hofmann, "Ultrathin graphene-based solar cells," Rsc Advances, vol. 5, no. 121, pp. 99627-99631, 2015

[16] C. C. Ting, W. Y. Li, C. H. Wang, and H. E. Yong, "Structural and electrical properties of the europium-doped indium zinc oxide thin film transistors," Thin Solid Films, vol. 562, pp. 625-631, Jul 2014

[17] C. C. Ting, H. Y. Fan, M. K. Tsai, W. Y. Li, H. E. Yong, and Y. F. Lin, "Improvement of electrical characteristics in the solution-processed nanocrystalline indium oxide thin-film transistors depending on yttrium doping concentration," Physica Status Solidi a-Applications and Materials Science, vol. 211, no. 4, pp. 800-810, Apr 2014

[18] Y.-P. Hsieh, C.-H. Yen, P.-S. Lin, S.-W. Ma, C.-C. Ting, C.-I. Wu, et al., "Ultra-high sensitivity graphene

photosensors," Applied Physics Letters, vol. 104, p. 041110, 2014.

[19] C. C. Ting, Y. C. Chien, and W. F. Sung, "Erbium Doping Effects on the Structural and Infrared Luminescence Properties of Gd2Ti2O7 Nanocrystals," Ecs Journal of Solid State Science and Technology, vol. 2, no. 6, pp. R105-R110, 2013

[20] C. C. Ting, S. P. Chang, W. Y. Li, and C. H. Wang, "Enhanced performance of indium zinc oxide thin film transistor by yttrium doping," Applied Surface Science, vol. 284, pp. 397-404, Nov 2013

[21] Y. P. Hsieh, Y. W. Wang, C. C. Ting, H. C. Wang, K. Y. Chen, and C. C. Yang, "Effect of Catalyst Morphology on the Quality of CVD Grown Graphene," Journal of Nanomaterials, vol. 2013, 2013, Art no. 393724

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[22] C. C. Ting and W. Y. Lee, "Cu2-xSe Films Fabricated by the Low-Temperature Electrophoretic Deposition," Electrochemical and Solid State Letters, vol. 15, no. 1, pp. H1-H4, 2012

[23] C. C. Ting, C. H. Tsai, Y. C. Chien, and C. T. Yu, "Enhanced Red Light Photoluminescence of the

Europium and Yttrium Co-Doped ITO Powders," Journal of the Electrochemical Society, vol. 159, pp. H400

H406, 2012.

[24] C.-C. Ting and W.-Y. Lee, "Low-temperature electrophoretic deposition of Cu2-x Se nanoparticles,"

physica status solidi (c), vol. 9, pp. 2390-2394, 2012.

[25] C. C. Ting, Y. S. Chiu, C. W. Chang, and L. C. Chuang, "Visible and infrared luminescence properties of Er3+-doped Y2Ti2O7 nanocrystals," Journal of Solid State Chemistry, vol. 184, no. 3, pp. 563-571, Mar 2011

[26] C. C. Ting, W. L. Cheng, and G. C. Lin, "Structural and opto-electrical properties of the tin-doped indium oxide thin films fabricated by the wet chemical method with different indium starting materials," Thin Solid Films, vol. 519, no. 13, pp. 4286-4292, Apr 2011

[27] H. C. Wang, S. W. Feng, T. Malinauskas, K. Jarasiunas, C. C. Ting, S. Liu, and C. Y. Tsai , "Carrier dynamics in InGaN/GaN multiple quantum wells based on different polishing processes of sapphire substrate," Thin Solid Films, vol. 518, no. 24, pp. 7291-7294, Oct 2010

[28] C. C. Ting, C. H. Li, C. Y. Kuo, C. C. Hsu, H. C. Wang, and M. H. Yang, "Compact and vertically-aligned ZnO nanorod thin films by the low-temperature solution method," Thin Solid Films, vol. 518, no. 15, pp. 4156-4162, May 2010

[29] C. C. Ting, C. W. Chang, L. C. Chuang, C. H. Li, and Y. S. Chiu, "Structural and optical properties of Er(3+)-doped Y(2)Ti(2)O(7) thin films by sol-gel method," Thin Solid Films, vol. 518, no. 20, pp. 5704-5710, Aug 2010

[30] K. T. Kuo, S. P. Lee, S. Y. Chen, B. M. Cheng, H. C. Lu, D. M. Liu, and C. C. Ting, "BaMgAl10O17 : Eu blue phosphors with MgO coating and microwave irradiation," Journal of Physics and Chemistry of Solids, vol. 69, no. 2-3, pp. 446-450, Feb-Mar 2008

[31] K. T. Kuo, S. P. Lee, S. Y. Chen, B. M. Cheng, H. C. Lu, and C. C. Ting, "Effect of microwave irradiation

on surface characteristics and luminescent properties of BaMgAl10O17 : Eu blue phosphor," Journal of Physics

and Chemistry of Solids, vol. 69, pp. 362-365, Feb-Mar 2008.

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[32] C. C. Ting, S. Y. Chen, and H. Y. Lee, "Physical characteristics and infrared fluorescence properties of sol-gel derived Er3+-Yb3+ codoped TiO2," Journal of Applied Physics, vol. 94, no. 3, pp. 2102-2109, Aug 2003

[33] S. Y. Chen, C. C. Ting, and W. F. Hsieh, "Comparison of visible fluorescence properties between sol-gel

derived Er3+-Yb3+ and Er3+-Y3+ co-doped TiO2 films," Thin Solid Films, vol. 434, pp. 171-177, Jun 2003.

[34] C. C. Ting, S. Y. Chen, and D. M. Liu, "Preferential growth of thin rutile TiO2 films upon thermal oxidation of sputtered Ti films," Thin Solid Films, vol. 402, no. 1-2, pp. 290-295, Jan 2002

[35] S. Y. Chen, C. C. Ting, and C. H. Li, "Fluorescence enhancement and structural development of sol-gel

derived Er3+-doped SiO2 by yttrium codoping," Journal of Materials Chemistry, vol. 12, pp. 1118-1123, 2002.

[36] C. C. Ting, S. Y. Chen, W. F. Hsieh, and H. Y. Lee, "Effects of yttrium codoping on photoluminescence of erbium-doped TiO2 films," Journal of Applied Physics, vol. 90, no. 11, pp. 5564-5569, Dec 2001

[37] C. C. Ting and S. Y. Chen, "Influence of ligand groups in Ti precursors on phase transformation and microstructural evolution of TiO2 thin films prepared by the wet chemical process," Journal of Materials Research, vol. 16, no. 6, pp. 1712-1719, Jun 2001

[38] C. C. Ting, S. Y. Chen, and D. M. Liu, "Structural evolution and optical properties of TiO2 thin films prepared by thermal oxidation of sputtered Ti films," Journal of Applied Physics, vol. 88, no. 8, pp. 4628-4633, Oct 2000, Art no. Pii [s0021-8979(00)07920-2]