{"id":1954,"date":"2024-06-13T17:37:25","date_gmt":"2024-06-13T10:37:25","guid":{"rendered":"https:\/\/physics.sc.kku.ac.th\/?page_id=1954"},"modified":"2024-06-13T17:45:24","modified_gmt":"2024-06-13T10:45:24","slug":"%e0%b8%ad-%e0%b8%94%e0%b8%a3-%e0%b8%97%e0%b8%a3%e0%b8%87%e0%b8%a2%e0%b8%b8%e0%b8%97%e0%b8%98-%e0%b9%81%e0%b8%81%e0%b9%89%e0%b8%a7%e0%b8%a1%e0%b8%b2%e0%b8%a5%e0%b8%b2","status":"publish","type":"page","link":"https:\/\/physics.sc.kku.ac.th\/?page_id=1954","title":{"rendered":"\u0e2d. \u0e14\u0e23.\u0e17\u0e23\u0e07\u0e22\u0e38\u0e17\u0e18 \u0e41\u0e01\u0e49\u0e27\u0e21\u0e32\u0e25\u0e32"},"content":{"rendered":"

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  • 2555<\/strong> \u0e27\u0e17.\u0e1a. (\u0e1f\u0e34\u0e2a\u0e34\u0e01\u0e2a\u0e4c) (\u0e40\u0e01\u0e35\u0e22\u0e23\u0e15\u0e19\u0e34\u0e22\u0e21\u0e2d\u0e31\u0e19\u0e14\u0e31\u0e1a 2) \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<\/li>\r\n
  • 2561<\/strong> \u0e1b\u0e23.\u0e14. (\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e28\u0e32\u0e2a\u0e15\u0e23\u0e4c\u0e41\u0e25\u0e30\u0e19\u0e32\u0e42\u0e19\u0e40\u0e17\u0e04\u0e42\u0e19\u0e42\u0e25\u0e22\u0e35) \u0e21\u0e2b\u0e32\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22\u0e02\u0e2d\u0e19\u0e41\u0e01\u0e48\u0e19<\/li>\r\n<\/ul>\r\n

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    \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 3 \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

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

    Google Scholar<\/strong>, Download CV<\/strong><\/p>\r\n<\/div>\r\n<\/div>\r\n

    [\/vc_column_text][\/vc_column][\/vc_row][vc_row][vc_column][vc_tta_tabs][vc_tta_section title=”\u0e07\u0e32\u0e19\u0e27\u0e34\u0e08\u0e31\u0e22\u0e17\u0e35\u0e48\u0e2a\u0e19\u0e43\u0e08” tab_id=”1675439835699-b56a98e0-b745″][vc_column_text animation=”bounceInDown”]<\/p>\r\n

      \r\n
    1. Development of cathode and anode materials for lithium-ion and sodium-ion batteries<\/li>\r\n
    2. In-situ XAS and XRD characterizations of the electrochemical mechanisms of electrode materials <\/em><\/li>\r\n
    3. Biomass derived hard carbon anodes for lithium-ion and sodium-ion batteries.<\/li>\r\n
    4. Optimizing and upscaling electrode productions for sodium-ion batteries.<\/li>\r\n
    5. Electrode formulations and electrochemical formation protocols for sodium-ion batteries.<\/li>\r\n<\/ol>\r\n

      [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”\u0e1c\u0e25\u0e07\u0e32\u0e19\u0e27\u0e34\u0e08\u0e31\u0e22” tab_id=”1675439835709-a5d52881-df28″][vc_column_text animation=”bounceInDown”]<\/p>\r\n

        \r\n
      1. Kaewmala, S<\/strong>., Chantrasuwan, P., Wiriya N., Srilomsak S., Limphirat W., Limthonkul, P., and Meethong N., Li2MnO3 domain size and current rate dependence on the electrochemical properties of 0.5Li2MnO3\u00b70.5LiCoO2 cathode material. Scientific Reports 7, 13196, (2017). (IF: 4.997, Q1)<\/li>\r\n
      2. Karaphun, A., Kaewmala, S<\/strong>., Meethong, N., Hunpratub, S. & Swatsitang, E. Electrochemical and Magnetic Properties of Electrospun SrTi1-xFexO3 (x = 0, 0.05 and 0.10) Nanofibers for Anodes of Li-Ion Batteries. Journal of Superconductivity and Novel Magnetism 31, 1909-1916, (2018). (IF: 1.800, Q3)<\/li>\r\n
      3. Chaikawang, C. Hongthong, R., Kaewmala S.,<\/strong> Pongha S., Kanapan Y., and Meethong N. Surface modification of rice husk ash as anodes for lithium-ion batteries. Materials Today: Proceedings 5, 13989-13994, (2018). (IF: 2.590, Q2)<\/li>\r\n
      4. Kaewmala, S., Limphirat, W., Yordsri, V., Kim, H., Muhammad, S., Yoon, Y-S., Srilomsak, S., Limthongkul, P., and Meethong, N., Structural and Electrochemical Kinetic Properties of 0.5Li2MnO3\u22195LiCoO2 Cathode Materials with Different Li2MnO3 Domain Sizes. Scientific Reports 9, 427, (2019). (IF: 4.997, Q1,)<\/li>\r\n
      5. Chantrasuwan, P., Wiriya N., Kaewmala, S<\/strong>., Pongha S., Limphirat W., Nash J., Srilomsak S., and Meethong N. Electrochemical Property Investigation of Cobalt Doped LiFePO4\/C during Charge-Discharge by an In-situ X-Ray Near Edge Structure Technique. AIP Conference Proceedings 2097, 020004, (2019). (IF: 0.189)<\/li>\r\n
      6. Kaewmala, S<\/strong>., Yordsri, V., Limphirat, W., Nash J., Srilomsak, S., Limthongkul, P., and Meethong, N. Rate dependent structural transition and cycling stability of a lithium-rich layered oxide material. Physical Chemistry Chemical Physics 21, 21984, (2019). (IF: 3.676 and Q1)<\/li>\r\n
      7. Kaewmala, S<\/strong>., Wiriya, N., Chantrasuwan, P., Yordsri, V., Limphirat, W., Muhammad, S., Yoon, W.-S., Nash, J., Srilomsak, S., Limthongkul, P., and Meethong, N. A multiscale investigation elucidating the structural complexities and electrochemical properties of layered\u2013layered composite cathode materials synthesized at low temperatures. Physical Chemistry Chemical Physics 22, 5439, (2020), (IF: 3.676 and Q1)<\/li>\r\n
      8. Wiriya, N., Chantrasuwan, P., Kaewmala, S., Nash, J., Srilomsak, S., Meethong, N., and Limphirat, W., Doping effect of manganese on the structural and electrochemical properties of Li2FeSiO4 cathode materials for rechargeable Li-ion batteries. Radiation Physics and Chemistry 171, 108753, (2020), (IF: 2.900, Q2)<\/li>\r\n
      9. Kaewmala, S<\/strong>., Limphirat, W., Yordsri, V., Nash, J., Srilomsak, S., Kesorn, A., Meethong, N., Rate dependent structural changes, cycling stability, and Li-ion diffusivity in a layered\u2013layered oxide cathode material after prolonged cycling. Journal of Materials Chemistry A, 9(24), 14004-14012, (2021). (IF: 14.511, Q1)<\/li>\r\n
      10. Wiriya, N., Kanaphan, Y., Hongtong, Y., Kaewmala, S<\/strong>., Nash, J., Limphirat, W., Srilomsak, S., Thipthanaratchaphong, N,Meethong, N. \u201cA review of current rate-dependent phase transformations of lithium metal orthosilicate cathode materials for Li-ion batteries\u201d Electrochemical Science Advances, e2100135, (2022).<\/li>\r\n
      11. Kaewmala, S<\/strong>., Kamma, N., Buakeaw, S., Limphirat, W., Nash, J., Srilomsak, S., Limthongkul, P., and Meethong, N. * Investigating the impacts of Mg doping on the Structural Properties and Electrochemical Performance of a Li and Mn Rich Layered Oxide Cathode Material for Lithium-ion Batteries, Scientific Reports, 13, 4526, (2023). (IF: 4.997, Q1)<\/li>\r\n
      12. Buakeaw, S., Kaewmala, S<\/strong>., Kamma, N., Nash, J., Srilomsak, S., Meethong, N.* and Limphirat, W., Combining XAS with XRD for elucidating the complex structural behavior of pre-lithiated SnO anode materials for Lithium-ion batteries. Radiation Physics and Chemistry, 207, p.110806, (2023). (IF: 2.900, Q2<\/li>\r\n
      13. Kamma, N., Chantrasuwan, P., Buakeaw, S., Kaewmala, S<\/strong>., Nash, J., Limthongkul, P., Limphirat, W. and Meethong, N., Site occupancy studies of cobalt doping in a lithium iron phosphate material using combined electrochemical and X-ray based techniques. Radiation Physics and Chemistry, 207, p.110816, (2023). (IF: 2.900, Q2)<\/li>\r\n
      14. Kaewmala, S<\/strong>., Kamma, N., Aranmala, K., Pipitworrakul, P.,Nash, J., Limphirat, W., and Meethong, N., A Comparative Study of the Structural and Electrochemical Properties of Na3V2(PO4)3\/C Cathode Materials for Na-ion Batteries Prepared by Sol-Gel vs. Solid-State Methods. ChemElectroChem, 13, 4526. (2023), (IF: 4.782 and Q1)<\/li>\r\n<\/ol>\r\n

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        1. \u0e27\u0e31\u0e2a\u0e14\u0e38\u0e19\u0e32\u0e42\u0e19\u0e08\u0e32\u0e01\u0e41\u0e01\u0e25\u0e1a\u0e2a\u0e33\u0e2b\u0e23\u0e31\u0e1a\u0e40\u0e1b\u0e47\u0e19\u0e2a\u0e48\u0e27\u0e19\u0e1b\u0e23\u0e30\u0e01\u0e2d\u0e1a\u0e02\u0e2d\u0e07\u0e02\u0e31\u0e49\u0e27\u0e44\u0e1f\u0e1f\u0e49\u0e32\u0e43\u0e19\u0e41\u0e1a\u0e15\u0e40\u0e15\u0e2d\u0e23\u0e35\u0e48\u0e0a\u0e19\u0e34\u0e14\u0e25\u0e34\u0e40\u0e17\u0e35\u0e22\u0e21 \u0e44\u0e2d\u0e2d\u0e2d\u0e19\u0e41\u0e25\u0e30\u0e01\u0e23\u0e23\u0e21\u0e27\u0e34\u0e18\u0e35\u0e01\u0e32\u0e23\u0e1c\u0e25\u0e34\u0e15 \u0e40\u0e25\u0e02\u0e17\u0e35\u0e48\u0e2d\u0e19\u0e38\u0e2a\u0e34\u0e17\u0e18\u0e34\u0e1a\u0e31\u0e15\u0e23 21061 \u0e04\u0e33\u0e02\u0e2d\u0e41\u0e08\u0e49\u0e07\u0e02\u0e49\u0e2d\u0e21\u0e39\u0e25\u0e40\u0e25\u0e02\u0e17\u0e35\u0e48 1903001035 \u0e40\u0e21\u0e37\u0e48\u0e2d\u0e27\u0e31\u0e19\u0e17\u0e35\u0e48 29 \u0e40\u0e21\u0e29\u0e32\u0e22\u0e19 2562<\/li>\r\n
        2. \u0e23\u0e30\u0e1a\u0e1a\u0e43\u0e2b\u0e49\u0e1e\u0e25\u0e31\u0e07\u0e07\u0e32\u0e19\u0e0a\u0e19\u0e34\u0e14\u0e1b\u0e23\u0e31\u0e1a\u0e04\u0e48\u0e32\u0e41\u0e23\u0e07\u0e14\u0e31\u0e19\u0e44\u0e14\u0e49 \u0e40\u0e25\u0e02\u0e17\u0e35\u0e48\u0e2d\u0e19\u0e38\u0e2a\u0e34\u0e17\u0e18\u0e34\u0e1a\u0e31\u0e15\u0e23 19401 \u0e04\u0e33\u0e02\u0e2d\u0e41\u0e08\u0e49\u0e07\u0e02\u0e49\u0e2d\u0e21\u0e39\u0e25\u0e40\u0e25\u0e02\u0e17\u0e35\u0e48 2003002403 \u0e40\u0e21\u0e37\u0e48\u0e2d\u0e27\u0e31\u0e19\u0e17\u0e35\u0e48 24 \u0e01\u0e31\u0e19\u0e22\u0e32\u0e22\u0e19 2563 \u0e2d\u0e2d\u0e01\u0e43\u0e2b\u0e49 \u0e13 \u0e27\u0e31\u0e19\u0e17\u0e35\u0e48\u00a0 25 \u0e01\u0e38\u0e21\u0e20\u0e32\u0e1e\u0e31\u0e19\u0e18\u0e4c\u00a0 2565<\/li>\r\n
        3. \u0e41\u0e1a\u0e15\u0e40\u0e15\u0e2d\u0e23\u0e35\u0e48 \u0e40\u0e25\u0e02\u0e17\u0e35\u0e48\u0e2a\u0e34\u0e17\u0e18\u0e34\u0e1a\u0e31\u0e15\u0e23 91686 \u0e40\u0e25\u0e02\u0e17\u0e35\u0e48\u0e04\u0e33\u0e02\u0e2d 2002004345 \u0e40\u0e21\u0e37\u0e48\u0e2d\u0e27\u0e31\u0e19\u0e17\u0e35\u0e48 24 \u0e01\u0e31\u0e19\u0e22\u0e32\u0e22\u0e19 2563 \u0e2d\u0e2d\u0e01\u0e43\u0e2b\u0e49 \u0e13 \u0e27\u0e31\u0e19\u0e17\u0e35\u0e48 20 \u0e01\u0e38\u0e21\u0e20\u0e32\u0e1e\u0e31\u0e19\u0e18\u0e4c 2566<\/li>\r\n<\/ol>\r\n

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            \r\n
          1. The winner of Thailand New Gen Inventors Award 2020\u201d (I-New Gen Award 2020), Thailand<\/li>\r\n
          2. The winner of Thailand New Gen Inventors Award 2021\u201d (I-New Gen Award 2021), Thailand<\/li>\r\n
          3. The winner of 2022 Kaohsiung International Invention & Design Expo (KIDE 2022), Taiwan<\/li>\r\n
          4. WIIPA Grand Prize (Commercial Potential Award), 2022 Kaohsiung International Invention & Design Expo (KIDE 2022), Taiwan<\/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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