{"id":671,"date":"2023-02-03T13:31:15","date_gmt":"2023-02-03T06:31:15","guid":{"rendered":"http:\/\/physics.sc.kku.ac.th\/?page_id=671"},"modified":"2024-06-21T21:48:20","modified_gmt":"2024-06-21T14:48:20","slug":"%e0%b8%a3%e0%b8%a8-%e0%b8%94%e0%b8%a3-%e0%b9%84%e0%b8%9e%e0%b9%82%e0%b8%a3%e0%b8%88%e0%b8%99%e0%b9%8c-%e0%b8%a1%e0%b8%b9%e0%b8%a5%e0%b8%95%e0%b8%a3%e0%b8%b0%e0%b8%81%e0%b8%b9%e0%b8%a5","status":"publish","type":"page","link":"https:\/\/physics.sc.kku.ac.th\/?page_id=671","title":{"rendered":"\u0e23\u0e28. \u0e14\u0e23.\u0e44\u0e1e\u0e42\u0e23\u0e08\u0e19\u0e4c \u0e21\u0e39\u0e25\u0e15\u0e23\u0e30\u0e01\u0e39\u0e25"},"content":{"rendered":"

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    • 2543<\/strong>\u00a0\u0e27\u0e17.\u0e1a. (\u0e1f\u0e34\u0e2a\u0e34\u0e01\u0e2a\u0e4c) \u0e21\u0e2b\u0e32\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22\u0e02\u0e2d\u0e19\u0e41\u0e01\u0e48\u0e19<\/li>\r\n\r\n\r\n\r\n
    • 2547\u00a0<\/strong>\u0e27\u0e17.\u0e21\u00a0\u00a0(\u0e1f\u0e34\u0e2a\u0e34\u0e01\u0e2a\u0e4c) \u0e08\u0e38\u0e2c\u0e32\u0e25\u0e07\u0e01\u0e23\u0e13\u0e4c\u0e21\u0e2b\u0e32\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22<\/li>\r\n\r\n\r\n\r\n
    • 2552\u00a0<\/strong>Ph.D. University of Leeds, UK<\/li>\r\n<\/ul>\r\n<\/li>\r\n<\/ul>\r\n\r\n

      \u0e2b\u0e49\u0e2d\u0e07\u0e17\u0e33\u0e07\u0e32\u0e19<\/strong> \u0e2d\u0e32\u0e04\u0e32\u0e23\u0e27\u0e34\u0e17\u0e22\u0e27\u0e34\u0e20\u0e32\u0e2a \u0e0a\u0e31\u0e49\u0e19 5 \u0e04\u0e13\u0e30\u0e27\u0e34\u0e17\u0e22\u0e32\u0e28\u0e32\u0e2a\u0e15\u0e23\u0e4c \u0e21\u0e2b\u0e32\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22\u0e02\u0e2d\u0e19\u0e41\u0e01\u0e48\u0e19<\/p>\r\n\r\n

      E-mail<\/strong>: mpairo@kku.ac.th<\/p>\r\n\r\n

      Download CV<\/strong><\/p>\r\n<\/div>\r\n\r\n\r\n\r\n

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        1. Metal oxide for photocatalysts<\/li>\r\n\r\n\r\n\r\n
        2. Metal oxide for thermoelectric<\/li>\r\n\r\n\r\n\r\n
        3. Low dimensional semiconductor<\/li>\r\n<\/ol>\r\n<\/li>\r\n<\/ol>\r\n

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            1. Nachaithong, P. Moontragoon<\/strong>, N. Chanlek, P. Thongbai,. Fe3+<\/sup>\/Nb5+<\/sup>\u00a0Co-doped rutile-TiO2\u00a0<\/sub>nanocrystalline powders prepared by a combustion process: preparation, characterization and their giant dielectric response, RSC advances, 10, 24784, 2020.<\/li>\r\n\r\n\r\n\r\n
            2. P. Sikam, P. Moontragoon<\/strong>, Z. Ikonic, T. Kaewmaraya, P. Thongbai,. The study of structural, morphological and optical properties of (Al, Ga)-doped ZnO: DFT and experimental approaches, Applied Surface Science. 480, 621-635, 2019.<\/li>\r\n\r\n\r\n\r\n
            3. Kaewmaraya, T. Ngamwongwan, L. Moontragoon, P<\/strong>. Jarernboon, W. Singh, D. Ahuja, R. Karton, A. and Hussain, T., Novel green phosphorene as a superior chemical gas sensing material, Journal of Hazardous Materials, 401, 123340, 2020<\/li>\r\n\r\n\r\n\r\n
            4. Nachaithong, W. Tuichai, P. Moontragoon<\/strong>, N. Chanlek, P. Thongbai,. Giant dielectric permittivity and dielectric relaxation behaviour in (Fe1\/2<\/sub>Nb1\/2<\/sub>)x<\/sub>Ti1-x<\/sub>O2<\/sub>\u00a0ceramics. Ceramics International. 44 (2018) S186-S188.<\/li>\r\n\r\n\r\n\r\n
            5. Sikam, R. Thirayatorn, P. Moontragoon<\/strong>, T. Kaewmaraya, V. Amornkitbamrung, Z. Ikonic,. The quantum confined Stark effect in N-doped {ZnO}\/{ZnO}\/N-doped {ZnO} nanostructures for infrared and terahertz applications, Nanotechnology, 31, 44, 445207, 2020<\/li>\r\n\r\n\r\n\r\n
            6. Thirayatorn, P. Moontragoon<\/strong>, V. Amornkitbamrung, S. Meansiri, Z. Ikonic,. Finite-difference calculation of the electronic structure of artificial graphene, the 2D hexagonal Alw<\/sub>Ga1\u2212w<\/sub>As\/GaAs structure with tunable interactions, Computer Physics Communications, 191 (2015) 106\u2013118.<\/li>\r\n\r\n\r\n\r\n
            7. Nambuddee, P. Moontragoon<\/strong>,. Calculation of electronic structure and thermoelectric properties of Ge(1-x)<\/sub>Six<\/sub>\u00a0alloy, Chiang Mai Journal of Science, \u00a040 (2013) 1013<\/li>\r\n\r\n\r\n\r\n
            8. P. Moontragoon<\/strong>, S. Pinitsoontorn, P. Thongbai,. \u00a0Mn-doped ZnO nanoparticles: Preparation, characterization, and calculation of electronic and magnetic properties, Microelectronic Engineering, (2013).<\/li>\r\n\r\n\r\n\r\n
            9. Jantrasee, S. Pinitsoontorn, P. Moontragoon<\/strong>,. First-principles study of the electronic structure and thermoelectric properties of Al-doped ZnO,\u00a0Journal of Electronic Materials, (2013).<\/li>\r\n\r\n\r\n\r\n
            10. P. Moontragoon<\/strong>, R.A. Soref and Z. Ikonic,. The direct and indirect bandgaps of unstrained Six<\/sub>Ge1-x-y<\/sub>Sny<\/sub>and their photonic device applications, Journal of Applied Physics.<\/li>\r\n\r\n\r\n\r\n
            11. Moontragoon, P<\/strong>. Pengpit, T.\u00a0Burinprakhon, S. Maensiri, N. Vukmirovic, Z. Ikonic,\u00a0P. Harrison,. Electronic properties calculation of Ge1-x- y<\/sub>Six<\/sub>Sny<\/sub>ternary alloy and nanostructure,\u00a0Journal of Non Crystalline Solids,\u00a0(2012).<\/li>\r\n\r\n\r\n\r\n
            12. P. Moontragoon,<\/strong> N. Vukmirovic, Z.\u00a0Ikonic and P. Harrison,.\u00a0SnGe Asymmetric Quantum Well Electroabsorption Modulators for Long-Wave Silicon Photonics, Journal of Selected Topics in Quantum, 16 (2010) 100.<\/li>\r\n\r\n\r\n\r\n
            13. Nachaithong, P. Moontragoon<\/strong>, N. Chanlek, P. Thongbai,. Fe3+<\/sup>\/Nb5+<\/sup>\u00a0Co-doped rutile-TiO2\u00a0<\/sub>nanocrystalline powders prepared by a combustion process: preparation, characterization and their giant dielectric response, RSC advances, 10, 24784, 2020.<\/li>\r\n\r\n\r\n\r\n
            14. P. Sikam, P. Moontragoon<\/strong>, Z. Ikonic, T. Kaewmaraya, P. Thongbai,. The study of structural, morphological and optical properties of (Al, Ga)-doped ZnO: DFT and experimental approaches, Applied Surface Science. 480, 621-635, 2019.<\/li>\r\n\r\n\r\n\r\n
            15. Kaewmaraya, T. Ngamwongwan, L. Moontragoon, P. <\/strong>Jarernboon, W. Singh, D. Ahuja, R. Karton, A. and Hussain, T., Novel green phosphorene as a superior chemical gas sensing material, Journal of Hazardous Materials, 401, 123340, 2020<\/li>\r\n\r\n\r\n\r\n
            16. Nachaithong, W. Tuichai, P. Moontragoon<\/strong>, N. Chanlek, P. Thongbai,. Giant dielectric permittivity and dielectric relaxation behaviour in (Fe1\/2<\/sub>Nb1\/2<\/sub>)x<\/sub>Ti1-x<\/sub>O2<\/sub>\u00a0ceramics. Ceramics International. 44 (2018) S186-S188.<\/li>\r\n\r\n\r\n\r\n
            17. Sikam, R. Thirayatorn, P. Moontragoon<\/strong>, T. Kaewmaraya, V. Amornkitbamrung, Z. Ikonic,. The quantum confined Stark effect in N-doped {ZnO}\/{ZnO}\/N-doped {ZnO} nanostructures for infrared and terahertz applications, Nanotechnology, 31, 44, 445207, 2020<\/li>\r\n\r\n\r\n\r\n
            18. Thirayatorn, P. Moontragoon<\/strong>, V. Amornkitbamrung, S. Meansiri, Z. Ikonic,. Finite-difference calculation of the electronic structure of artificial graphene, the 2D hexagonal Alw<\/sub>Ga1\u2212w<\/sub>As\/GaAs structure with tunable interactions, Computer Physics Communications, 191 (2015) 106\u2013118.<\/li>\r\n\r\n\r\n\r\n
            19. Nambuddee, P. Moontragoon<\/strong>,. Calculation of electronic structure and thermoelectric properties of Ge(1-x)<\/sub>Six<\/sub>\u00a0alloy, Chiang Mai Journal of Science, \u00a040 (2013) 1013<\/li>\r\n\r\n\r\n\r\n
            20. P. Moontragoon<\/strong>, S. Pinitsoontorn, P. Thongbai,. \u00a0Mn-doped ZnO nanoparticles: Preparation, characterization, and calculation of electronic and magnetic properties, Microelectronic Engineering, (2013).<\/li>\r\n\r\n\r\n\r\n
            21. Jantrasee, S. Pinitsoontorn, P. Moontragoon<\/strong>,. First-principles study of the electronic structure and thermoelectric properties of Al-doped ZnO,\u00a0Journal of Electronic Materials, (2013).<\/li>\r\n\r\n\r\n\r\n
            22. P. Moontragoon<\/strong>, R.A. Soref and Z. Ikonic,. The direct and indirect bandgaps of unstrained Six<\/sub>Ge1-x-y<\/sub>Sny<\/sub>and their photonic device applications, Journal of Applied Physics.<\/li>\r\n\r\n\r\n\r\n
            23. Moontragoon, P<\/strong>. Pengpit, T.\u00a0Burinprakhon, S. Maensiri, N. Vukmirovic, Z. Ikonic,\u00a0P. Harrison,. Electronic properties calculation of Ge1-x- y<\/sub>Six<\/sub>Sny<\/sub>ternary alloy and nanostructure,\u00a0Journal of Non Crystalline Solids,\u00a0(2012).<\/li>\r\n\r\n\r\n\r\n
            24. P. Moontragoon<\/strong>, N. Vukmirovic, Z.\u00a0Ikonic and P. Harrison,.\u00a0SnGe Asymmetric Quantum Well Electroabsorption Modulators for Long-Wave Silicon Photonics, Journal of Selected Topics in Quantum, 16 (2010) 100.<\/li>\r\n\r\n\r\n\r\n
            25. P. Moontragoon<\/strong>, N. Vukmirovic, Z. Ikonic, P. Harrison,. Electronic structure and optical transitions in Sn and SnGe quantum dots in a Si matrix, Microelectronics Journal, \u00a040 (2009) 483.<\/li>\r\n\r\n\r\n\r\n
            26. P. Moontragoon<\/strong>, N. Vukmirovic, Z. Ikonic, and P.\u00a0Harrison,. Electronic structure and optical properties of Sn and SnGe quantum dots, Journal of Applied Physics, (2008).<\/li>\r\n\r\n\r\n\r\n
            27. Moontragoon<\/strong>, Z. Ikonic and P.\u00a0Harrison,. Band structure calculations of SiGeSn alloys : achieving direct band gap material, Semicond. Sci. Technol. 22\u00a0(2007) 742., N. Vukmirovic, Z. Ikonic, P. Harrison,. Electronic structure and optical transitions in Sn and SnGe quantum dots in a Si matrix, Microelectronics Journal, \u00a040 (2009) 483.<\/li>\r\n\r\n\r\n\r\n
            28. Moontragoon<\/strong>, N. Vukmirovic, Z. Ikonic, and P.\u00a0Harrison,. Electronic structure and optical properties of Sn and SnGe quantum dots, Journal of Applied Physics, (2008).<\/li>\r\n\r\n\r\n\r\n
            29. Moontragoon<\/strong>, Z. Ikonic and P.\u00a0Harrison,. Band structure calculations of SiGeSn alloys : achieving direct band gap material, Semicond. Sci. Technol. 22\u00a0(2007) 742.<\/li>\r\n<\/ol>\r\n<\/li>\r\n<\/ol>\r\n\r\n

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                1. Excellence academic student in Bachelor\u2019s degree of Science (Physics) given by The Professor Dr. Tab Nilanidhi Foundation of 2000<\/li>\r\n\r\n\r\n\r\n
                2. The Best thesis for higher degree by School of Electronic & Electrical Engineering University of Leeds<\/li>\r\n<\/ol>\r\n<\/li>\r\n<\/ol>\r\n

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                  1. Introduction to computational materials<\/li>\r\n<\/ol>\r\n

                    [\/vc_column_text][\/vc_tta_section][\/vc_tta_tabs][\/vc_column][\/vc_row]<\/p><\/section>","protected":false},"excerpt":{"rendered":"

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