{"id":814,"date":"2023-02-03T22:09:00","date_gmt":"2023-02-03T15:09:00","guid":{"rendered":"http:\/\/physics.sc.kku.ac.th\/?page_id=814"},"modified":"2023-09-14T13:12:34","modified_gmt":"2023-09-14T06:12:34","slug":"%e0%b8%a3%e0%b8%a8-%e0%b8%94%e0%b8%a3-%e0%b8%a7%e0%b8%b4%e0%b8%a2%e0%b8%b0%e0%b8%94%e0%b8%b2-%e0%b8%ab%e0%b8%b2%e0%b8%8d%e0%b8%8a%e0%b8%99%e0%b8%b0","status":"publish","type":"page","link":"https:\/\/physics.sc.kku.ac.th\/?page_id=814","title":{"rendered":"\u0e23\u0e28. \u0e14\u0e23.\u0e27\u0e34\u0e22\u0e30\u0e14\u0e32 \u0e2b\u0e32\u0e0d\u0e0a\u0e19\u0e30"},"content":{"rendered":"

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    • 2548<\/strong> \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 (\u0e40\u0e01\u0e35\u0e22\u0e23\u0e15\u0e34\u0e19\u0e34\u0e22\u0e21\u0e2d\u0e31\u0e19\u0e14\u0e31\u0e1a\u0e2b\u0e19\u0e36\u0e48\u0e07)<\/li>\r\n\r\n\r\n\r\n
    • 2549<\/strong> M.Sc. in Nanoscale science and technology, University of Leeds, UK<\/li>\r\n\r\n\r\n\r\n
    • 2553<\/strong> Ph.D., School of process, environmental and material engineering, 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>: viyada@kku.ac.th<\/p>\r\n\r\n

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

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        1. Triboelectric effect-based nanodevices<\/li>\r\n\r\n\r\n\r\n
        2. Mechanical energy harvesting and sensing<\/li>\r\n\r\n\r\n\r\n
        3. Nanomaterial fabrication and characterization for energy applications<\/li>\r\n\r\n\r\n\r\n
        4. Carbon-based nanomaterials<\/li>\r\n<\/ol>\r\n<\/li>\r\n<\/ol>\r\n

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            1. Thongthapthai, W.; Harnchana, V.<\/strong>; Chanthad, C.; Amornkitbamrung, V.; Chindaprasirt, P. The fabrication of calcium silicate-natural rubber composite for mechanical energy harvesting. Surfaces and Interfaces 2021, 25, 101180.<\/li>\r\n\r\n\r\n\r\n
            2. Prada, T.; Harnchana, V.<\/strong>; Lakhonchai, A.; Chingsungnoen, A.; Poolcharuansin, P.; Chanlek, N.; Klamchuen, A.; Thongbai, P.; Amornkitbamrung, V. Enhancement of output power density in a modified polytetrafluoroethylene surface using a sequential O2<\/sub>\/ar plasma etching for triboelectric nanogenerator applications. Nano Research 2021.<\/li>\r\n\r\n\r\n\r\n
            3. Bunriw, W.; Harnchana, V<\/strong>.; Chanthad, C.; Huynh, V. N. Natural Rubber-TiO2 Nanocomposite Film for Triboelectric Nanogenerator Application.\u00a0Polymers\u00a0<\/em>2021,<\/strong>\u00a013<\/em>\u00a0(13).<\/li>\r\n\r\n\r\n\r\n
            4. Suphasorn, P.; Appamato, I.; Harnchana, V.<\/strong>; Thongbai, P.; Chanthad, C.; Siriwong, C.; Amornkitbamrung, V. Ag nanoparticle-incorporated natural rubber for mechanical energy harvesting application. Molecules 2021, 26.<\/li>\r\n\r\n\r\n\r\n
            5. Sintusiri, J.; Harnchana, V.<\/strong>; Amornkitbamrung, V.; Wongsa, A.; Chindaprasirt, P. Portland cement-tio2 triboelectric nanogenerator for robust large-scale mechanical energy harvesting and instantaneous motion sensor applications. Nano Energy 2020, 74, 104802.<\/li>\r\n\r\n\r\n\r\n
            6. Pansumdaeng, J.; Kuntharin, S.; Harnchana, V<\/strong>.; Supanchaiyamat, N. Fully bio-based epoxidized soybean oil thermosets for high performance triboelectric nanogenerators. Green Chemistry 2020, 22, 6912-6921.<\/li>\r\n\r\n\r\n\r\n
            7. Jakmuangpak, S.; Prada, T.; Mongkolthanaruk, W.; Harnchana, V.<\/strong>; Pinitsoontorn, S. Engineering bacterial cellulose films by nanocomposite approach and surface modification for biocompatible triboelectric nanogenerator. ACS Applied Electronic Materials 2020, 2, 2498-2506.<\/li>\r\n\r\n\r\n\r\n
            8. Harnchana, V.<\/strong>; Chaiyachad, S.; Pimanpang, S.; Saiyasombat, C.; Srepusharawoot, P.; Amornkitbamrung, V. Hierarchical fe3o4-reduced graphene oxide nanocomposite grown on nacl crystals for triiodide reduction in dye-sensitized solar cells. Scientific Reports 2019, 9, 1494.<\/li>\r\n\r\n\r\n\r\n
            9. Harnchana, V.<\/strong>; Ngoc, H. V.; He, W.; Rasheed, A.; Park, H.; Amornkitbamrung, V.; Kang, D. J. Enhanced power output of a triboelectric nanogenerator using poly(dimethylsiloxane) modified with graphene oxide and sodium dodecyl sulfate. ACS Applied Materials & Interfaces 2018, 10, 25263-25272.<\/li>\r\n\r\n\r\n\r\n
            10. Harnchana, V.<\/strong>, et al., Facile and economical synthesis of superparamagnetic magnetite nanoparticles coated with oleic acid using sonochemical route. Materials Today: Proceedings, 2018. 5(6, Part 1): p. 13995-14001<\/li>\r\n\r\n\r\n\r\n
            11. Keawphaisan, L., et al., Hydrothermal synthesis of the composited WS2\u2013W5O14\u2013MWCNTs for high performance dye-sensitized solar cell counter electrodes. Journal of Materials Science: Materials in Electronics, 2017. 28(24): p. 18765-18772.<\/li>\r\n\r\n\r\n\r\n
            12. Tagsin, P., et al., Enhanced specific capacitance of an electrophoretic deposited MnO2-carbon nanotube supercapacitor. Journal of the Korean Physical Society, 2017. 71(12): p. 997-1005.<\/li>\r\n\r\n\r\n\r\n
            13. Du, J., et al., Porous NiCo2S4 Networks as Electrodes for Electrochemical Supercapacitors. Nano, 2016. 11(12): p. 1650133.<\/li>\r\n\r\n\r\n\r\n
            14. M. Towannang, P. Kumlangwan, W. Maiaugree, K. Ratchaphonsaenwong, V. Harnchana<\/strong>, W. Jarenboon, S. Pimanpang, V. Amornkitbamrung, High efficiency organic-electrolyte DSSC based on hydrothermally deposited titanium carbide-carbon counter electrodes, Electronic Materials Letters, 11(4) (2015) 643-649.<\/li>\r\n\r\n\r\n\r\n
            15. Tagsin, P. Klangtakai, P. Harnchana, V.<\/strong> Pimanpang, S. Amornkitbamrung, V. Synthesis and supercapacitor characteristics of hydrothermally-deposited MnO2 films and chemically Co-deposited MnO2-polyaniline films on stainless-steel substrates. Journal of the Korean Physical Society, 2015. 66(12): p. 1901-1907.<\/li>\r\n\r\n\r\n\r\n
            16. Pikaned Uppachai, Viyada Harnchana<\/strong>, Samuk Pimanpang, Vittaya Amornkitbamrunga, Andrew P. Brown, Rik M.D. Brydson. A substoichiometric tungsten oxide catalyst provides a sustainable and efficient counter electrode for dye-sensitized solar cells. Electrochimica Acta. 2014 ;145: 27-33.[ IF : 4.086 ] (Corr) (ISI)<\/li>\r\n\r\n\r\n\r\n
            17. Harnchana, V<\/strong>., Hindmarch, A.T., Sarahan, M.C., Marrows, C.H., Brown, A.P., Brydson, R.M.D. Evidence for boron diffusion into sub-stoichiometric MgO (001) barriers in CoFeB\/MgO-based magnetic tunnel junctions. Journal of Applied Physics. 2013 ;113: 163502.[ IF : 2.210 ] (Corr) (ISI) (SCI)<\/li>\r\n\r\n\r\n\r\n
            18. Maiaugree, W., Towannang, M., Thiangkaew, A., Harnchana, V.<\/strong>, Jarernboon, W., Pimanpang, S., Amornkitbamrung, V.. Composited NiSO4 and PEDOT:PSS counter electrode for efficient dye-sensitized solar cell based on organic T2\/T- electrolyte. Materials Letters. 2013 ;111: 197. [ IF : 2.224 ] (ISI) (SCI)<\/li>\r\n\r\n\r\n\r\n
            19. Towannang, Madsakorn Pimanpang, Samuk Thiangkaew, Anongnad Rutphonsan, Phikun Maiaugree, Wasan Harnchana, Viyada <\/strong>Jarernboon, Wirat Amornkitbamrung, Vittaya. Chemically deposited polypyrrole-nanoparticle counter electrode for inorganic I\u2212\/I3\u2212 and organic T\u2212\/T2 dye-sensitized solar cells. Synthetic Metals. 2012 ;162: 1954.[ IF : 2.109 ] (ISI) (SCI)<\/li>\r\n\r\n\r\n\r\n
            20. Hindmarch, A.T., Harnchana, V.<\/strong>, Walton, A.S., Brown, A.P., Brydson, R.M.D., Marrows, C.H. Zirconium as a boron sink in crystalline CoFeB\/MgO\/CoFeB magnetic tunnel junctions. Applied Physics Express. 2011 ;4: 013002.[ IF : 2.73 ] (ISI) (SCI)<\/li>\r\n\r\n\r\n\r\n
            21. Harnchana, V.<\/strong> , Hindmarch, A.T., Brown, A.P., Brydson, R.M., Marrows, C.H. TEM investigation of MgO thin films for magnetic tunnel junction application. Journal of Physics: Conference Series. 2010 ;241: 012039.[ IF : ] (Corr) (ISI) (SCI)<\/li>\r\n\r\n\r\n\r\n
            22. Hindmarch, A.T., Harnchana, V.<\/strong>, Ciudad, D., Negusse, E., Arena, D.A., Brown, A.P., Brydson, R.M.D., Marrows, C.H.. Magnetostructural influences of thin Mg insert layers in crystalline CoFe(B)\/MgO\/CoFe(B) magnetic tunnel junctions. Applied Physics Letters. 2010 ;97: 252502.[ IF : 3.794 ] (ISI) (SCI)<\/li>\r\n\r\n\r\n\r\n
            23. Anderson, G.I.R., Wei, H.-X., Porter, N.A., Harnchana, V<\/strong>., Brown, A.P., Brydson, R.M.D., Arena, D.A., Dvorak, J., Han, X.-F., Marrows, C.H. Changes in the layer roughness and crystallography during the annealing of CoFeB\/MgO\/CoFeB magnetic tunnel junctions. Journal of Applied Physics. 2009 ;105: 063904.[ IF : 2.210 ] (ISI) (SCI)<\/li>\r\n\r\n\r\n\r\n
            24. Harnchana, V.<\/strong>, Brown, A.P., Brydson, R.M., Harrington, J.P., Hindmarch, A.T., Marrows, C.H., Hickey, B.J. TEM characterization of a magnetic tunnel junction. Journal of Physics: Conference Series. 2008 ;126: 012058.[ IF : ] (Corr) (ISI) (SCI)<\/li>\r\n<\/ol>\r\n<\/li>\r\n<\/ol>\r\n\r\n

              [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”\u0e23\u0e32\u0e07\u0e27\u0e31\u0e25” tab_id=”1675437042582-23a50d7f-ac5d”][vc_column_text animation=”bounceInDown”]<\/p>\r\n\r\n

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                1. \u0e23\u0e32\u0e07\u0e27\u0e31\u0e25\u0e01\u0e32\u0e23\u0e27\u0e34\u0e08\u0e31\u0e22\u0e41\u0e2b\u0e48\u0e07\u0e0a\u0e32\u0e15\u0e34\u00a0:\u00a0\u0e23\u0e32\u0e07\u0e27\u0e31\u0e25\u0e1c\u0e25\u0e07\u0e32\u0e19\u0e1b\u0e23\u0e30\u0e14\u0e34\u0e29\u0e10\u0e4c\u0e04\u0e34\u0e14\u0e04\u0e49\u0e19 (\u0e23\u0e32\u0e07\u0e27\u0e31\u0e25\u0e1b\u0e23\u0e30\u0e01\u0e32\u0e28\u0e40\u0e01\u0e35\u0e22\u0e23\u0e15\u0e34\u0e04\u0e38\u0e13) \u0e1b\u0e23\u0e30\u0e08\u0e33\u0e1b\u0e35\u0e07\u0e1a\u0e1b\u0e23\u0e30\u0e21\u0e32\u0e13 2564\u0e08\u0e32\u0e01\u0e2a\u0e33\u0e19\u0e31\u0e01\u0e07\u0e32\u0e19\u0e01\u0e32\u0e23\u0e27\u0e34\u0e08\u0e31\u0e22\u0e41\u0e2b\u0e48\u0e07\u0e0a\u0e32\u0e15\u0e34 (Invention Award from National Research Council of Thailand 2020).<\/li>\r\n\r\n\r\n\r\n
                2. \u0e23\u0e32\u0e07\u0e27\u0e31\u0e25\u0e27\u0e34\u0e17\u0e22\u0e32\u0e19\u0e34\u0e1e\u0e19\u0e18\u0e4c\u0e14\u0e35\u0e40\u0e14\u0e48\u0e19 (\u0e23\u0e30\u0e14\u0e31\u0e1a\u0e14\u0e35\u0e40\u0e14\u0e48\u0e19) \u0e1b\u0e23\u0e30\u0e08\u0e33\u0e1b\u0e35 2564 \u0e2a\u0e33\u0e2b\u0e23\u0e31\u0e1a\u0e2d\u0e32\u0e08\u0e32\u0e23\u0e22\u0e4c\u0e17\u0e35\u0e48\u0e1b\u0e23\u0e36\u0e01\u0e29\u0e32\u0e23\u0e30\u0e14\u0e31\u0e1a \u0e1b.\u0e42\u0e17 (\u0e19\u0e32\u0e07\u0e2a\u0e32\u0e27\u0e08\u0e34\u0e23\u0e32\u0e1e\u0e23\u0e23\u0e13 \u0e2a\u0e34\u0e19\u0e18\u0e38\u0e28\u0e34\u0e23\u0e34) \u0e08\u0e32\u0e01\u0e1a\u0e31\u0e13\u0e11\u0e34\u0e15\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22 \u0e21\u0e2b\u0e32\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22\u0e02\u0e2d\u0e19\u0e41\u0e01\u0e48\u0e19 (Best advisor award for M.Sc. student, Miss Jirapan Sintusiri, from Graduate School, Khon Kaen University 2020).<\/li>\r\n<\/ol>\r\n<\/li>\r\n<\/ol>\r\n\r\n

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