{"id":867,"date":"2023-02-03T22:53:18","date_gmt":"2023-02-03T15:53:18","guid":{"rendered":"http:\/\/physics.sc.kku.ac.th\/?page_id=867"},"modified":"2023-02-24T18:22:04","modified_gmt":"2023-02-24T11:22:04","slug":"%e0%b8%a8-%e0%b8%94%e0%b8%a3-%e0%b9%80%e0%b8%ad%e0%b8%81%e0%b8%9e%e0%b8%a3%e0%b8%a3%e0%b8%93-%e0%b8%aa%e0%b8%a7%e0%b8%b1%e0%b8%aa%e0%b8%94%e0%b8%b4%e0%b9%8c%e0%b8%8b%e0%b8%b4%e0%b8%95%e0%b8%b1","status":"publish","type":"page","link":"https:\/\/physics.sc.kku.ac.th\/?page_id=867","title":{"rendered":"\u0e28. \u0e14\u0e23.\u0e40\u0e2d\u0e01\u0e1e\u0e23\u0e23\u0e13 \u0e2a\u0e27\u0e31\u0e2a\u0e14\u0e34\u0e4c\u0e0b\u0e34\u0e15\u0e31\u0e07"},"content":{"rendered":"

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    • 2522<\/strong> \u0e27\u0e17.\u0e1a. (\u0e1f\u0e34\u0e2a\u0e34\u0e01\u0e2a\u0e4c) \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\r\n\r\n\r\n
    • 2526 <\/strong>\u0e27\u0e17.\u0e21. (\u0e40\u0e04\u0e21\u0e34\u0e40\u0e0a\u0e34\u0e07\u0e1f\u0e34\u0e2a\u0e34\u0e01\u0e2a\u0e4c)\u00a0 \u0e21\u0e2b\u0e32\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22\u0e21\u0e2b\u0e34\u0e14\u0e25<\/li>\r\n\r\n\r\n\r\n
    • 2531<\/strong> Dr. rer. nat. (Physics) University of Innsbruck, Austria<\/li>\r\n<\/ul>\r\n<\/li>\r\n<\/ul>\r\n

      \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 4 \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\r\nE-mail<\/strong>: ekaphan@kku.ac.th<\/p>\r\n

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

      <\/p>\r\n<\/div>\r\n\r\n\r\n\r\n

      \u00a0<\/div>\r\n

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      \u0e2a\u0e33\u0e2b\u0e23\u0e31\u0e1a\u0e1c\u0e25\u0e07\u0e32\u0e19\u0e27\u0e34\u0e08\u0e31\u0e22\u0e17\u0e35\u0e48\u0e19\u0e33\u0e40\u0e2a\u0e19\u0e2d\u0e43\u0e19\u0e0a\u0e48\u0e27\u0e07\u0e41\u0e23\u0e01\u0e15\u0e31\u0e49\u0e07\u0e41\u0e15\u0e48\u0e1b\u0e35 \u0e04.\u0e28. 2007 \u0e40\u0e1b\u0e47\u0e19\u0e01\u0e32\u0e23\u0e2a\u0e31\u0e07\u0e40\u0e04\u0e23\u0e32\u0e30\u0e2b\u0e4c\u0e41\u0e25\u0e30\u0e28\u0e36\u0e01\u0e29\u0e32\u0e25\u0e31\u0e01\u0e29\u0e13\u0e30\u0e40\u0e09\u0e1e\u0e32\u0e30\u0e02\u0e2d\u0e07\u0e42\u0e25\u0e2b\u0e30\u0e2d\u0e2d\u0e01\u0e44\u0e0b\u0e14\u0e4c\u0e2d\u0e19\u0e38\u0e20\u0e32\u0e04\u0e02\u0e19\u0e32\u0e14\u0e19\u0e32\u0e42\u0e19\u0e40\u0e21\u0e15\u0e23\u0e17\u0e35\u0e48\u0e40\u0e19\u0e49\u0e19\u0e17\u0e32\u0e07\u0e14\u0e49\u0e32\u0e19\u0e2a\u0e21\u0e1a\u0e31\u0e15\u0e34\u0e41\u0e21\u0e48\u0e40\u0e2b\u0e25\u0e47\u0e01\u0e41\u0e25\u0e30\u0e01\u0e32\u0e23\u0e14\u0e39\u0e14\u0e01\u0e25\u0e37\u0e19\u0e41\u0e2a\u0e07 <\/strong>\u0e42\u0e14\u0e22\u0e40\u0e09\u0e1e\u0e32\u0e30\u0e43\u0e19\u0e01\u0e25\u0e38\u0e48\u0e21\u0e02\u0e2d\u0e07\u0e27\u0e31\u0e2a\u0e14\u0e38 \u0e40\u0e1f\u0e23\u0e4c\u0e44\u0e23\u0e15\u0e4c \u0e0b\u0e36\u0e48\u0e07\u0e2a\u0e31\u0e07\u0e40\u0e04\u0e23\u0e32\u0e30\u0e2b\u0e4c\u0e44\u0e14\u0e49\u0e14\u0e49\u0e27\u0e22\u0e27\u0e34\u0e18\u0e35\u0e17\u0e35\u0e48\u0e41\u0e15\u0e01\u0e15\u0e48\u0e32\u0e07\u0e01\u0e31\u0e19\u0e2b\u0e25\u0e32\u0e01\u0e2b\u0e25\u0e32\u0e22\u0e41\u0e1a\u0e1a \u0e40\u0e0a\u0e48\u0e19 \u0e44\u0e2e\u0e42\u0e14\u0e23\u0e40\u0e17\u0e2d\u0e23\u0e4c\u0e21\u0e2d\u0e25 \u0e0b\u0e2d\u0e25-\u0e40\u0e08\u0e25 \u0e2d\u0e34\u0e40\u0e25\u0e47\u0e01\u0e42\u0e17\u0e23\u0e2a\u0e1b\u0e34\u0e19\u0e19\u0e34\u0e07 \u0e01\u0e32\u0e23\u0e2a\u0e25\u0e32\u0e22\u0e14\u0e49\u0e27\u0e22\u0e04\u0e27\u0e32\u0e21\u0e23\u0e49\u0e2d\u0e19 \u0e1e\u0e2d\u0e25\u0e34\u0e40\u0e21\u0e2d\u0e23\u0e4c\u0e40\u0e0a\u0e34\u0e07\u0e0b\u0e49\u0e2d\u0e19 \u0e1e\u0e2d\u0e25\u0e34\u0e40\u0e21\u0e2d\u0e23\u0e4c\u0e44\u0e1e\u0e42\u0e23\u0e44\u0e25\u0e0b\u0e34\u0e2a \u0e40\u0e1b\u0e47\u0e19\u0e15\u0e49\u0e19 \u0e40\u0e19\u0e37\u0e48\u0e2d\u0e07\u0e08\u0e32\u0e01\u0e2a\u0e32\u0e21\u0e32\u0e23\u0e16\u0e2a\u0e48\u0e07\u0e1c\u0e25\u0e15\u0e48\u0e2d\u0e23\u0e39\u0e1b\u0e17\u0e23\u0e07 \u0e2a\u0e31\u0e13\u0e10\u0e32\u0e19\u0e41\u0e25\u0e30\u0e02\u0e19\u0e32\u0e14\u0e02\u0e2d\u0e07\u0e1c\u0e25\u0e34\u0e15\u0e20\u0e31\u0e13\u0e11\u0e4c\u0e17\u0e35\u0e48\u0e44\u0e14\u0e49\u0e40\u0e0a\u0e48\u0e19 \u0e1c\u0e07 \u0e40\u0e2a\u0e49\u0e19\u0e43\u0e22 \u0e41\u0e25\u0e30\u0e41\u0e1c\u0e48\u0e19 \u0e17\u0e35\u0e48\u0e2a\u0e33\u0e04\u0e31\u0e0d\u0e04\u0e37\u0e2d\u0e43\u0e19\u0e07\u0e32\u0e19\u0e27\u0e34\u0e08\u0e31\u0e22\u0e22\u0e31\u0e07\u0e44\u0e14\u0e49\u0e40\u0e19\u0e49\u0e19\u0e01\u0e32\u0e23\u0e28\u0e36\u0e01\u0e29\u0e32\u0e1c\u0e25\u0e02\u0e2d\u0e07\u0e40\u0e07\u0e37\u0e48\u0e2d\u0e19\u0e44\u0e02\u0e17\u0e35\u0e48\u0e43\u0e0a\u0e49\u0e43\u0e19\u0e01\u0e32\u0e23\u0e2a\u0e31\u0e07\u0e40\u0e04\u0e23\u0e32\u0e30\u0e2b\u0e4c \u0e01\u0e32\u0e23\u0e40\u0e15\u0e34\u0e21\u0e41\u0e15\u0e48\u0e07 (modify) \u0e2b\u0e23\u0e37\u0e2d\u0e01\u0e32\u0e23\u0e40\u0e08\u0e37\u0e2d (doping) \u0e14\u0e49\u0e27\u0e22\u0e42\u0e25\u0e2b\u0e30\u0e15\u0e48\u0e32\u0e07\u0e46 \u0e0b\u0e36\u0e48\u0e07\u0e40\u0e19\u0e49\u0e19\u0e17\u0e35\u0e48\u0e01\u0e32\u0e23\u0e43\u0e0a\u0e49\u0e42\u0e25\u0e2b\u0e30\u0e43\u0e19\u0e01\u0e25\u0e38\u0e48\u0e21 \u0e41\u0e17\u0e23\u0e19\u0e2a\u0e34\u0e0a\u0e31\u0e19\u0e40\u0e1b\u0e47\u0e19\u0e2b\u0e25\u0e31\u0e01\u0e23\u0e27\u0e21\u0e17\u0e31\u0e49\u0e07\u0e1c\u0e25\u0e01\u0e32\u0e23\u0e41\u0e2d\u0e19\u0e19\u0e35\u0e25\u0e2b\u0e23\u0e37\u0e2d\u0e01\u0e32\u0e23\u0e2d\u0e1a\u0e2d\u0e48\u0e2d\u0e19\u0e17\u0e35\u0e48\u0e2a\u0e48\u0e07\u0e1c\u0e25\u0e01\u0e23\u0e30\u0e17\u0e1a\u0e42\u0e14\u0e22\u0e15\u0e23\u0e07\u0e15\u0e48\u0e2d\u0e2a\u0e21\u0e1a\u0e31\u0e15\u0e34\u0e14\u0e31\u0e07\u0e01\u0e25\u0e48\u0e32\u0e27<\/p>\r\n

      \u0e08\u0e32\u0e01\u0e1c\u0e25\u0e07\u0e32\u0e19\u0e27\u0e34\u0e08\u0e31\u0e22\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e41\u0e21\u0e48\u0e40\u0e2b\u0e25\u0e47\u0e01\u0e1e\u0e1a\u0e27\u0e48\u0e32\u0e2a\u0e21\u0e1a\u0e31\u0e15\u0e34\u0e2b\u0e25\u0e32\u0e22\u0e2d\u0e22\u0e48\u0e32\u0e07\u0e21\u0e35\u0e01\u0e32\u0e23\u0e40\u0e1b\u0e25\u0e35\u0e48\u0e22\u0e19\u0e41\u0e1b\u0e25\u0e07\u0e2d\u0e22\u0e48\u0e32\u0e07\u0e40\u0e2b\u0e47\u0e19\u0e44\u0e14\u0e49\u0e0a\u0e31\u0e14\u0e40\u0e08\u0e19\u0e17\u0e35\u0e48\u0e2d\u0e32\u0e08\u0e19\u0e33\u0e44\u0e1b\u0e2a\u0e39\u0e48\u0e01\u0e32\u0e23\u0e1e\u0e31\u0e12\u0e19\u0e32\u0e40\u0e1b\u0e47\u0e19\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e17\u0e35\u0e48\u0e43\u0e0a\u0e49\u0e1b\u0e23\u0e30\u0e42\u0e22\u0e0a\u0e19\u0e4c\u0e44\u0e14\u0e49\u0e43\u0e19\u0e17\u0e32\u0e07 \u0e01\u0e32\u0e23\u0e41\u0e1e\u0e17\u0e22\u0e4c \u0e01\u0e32\u0e23\u0e17\u0e2b\u0e32\u0e23\u00a0 \u0e2a\u0e34\u0e48\u0e07\u0e41\u0e27\u0e14\u0e25\u0e49\u0e2d\u0e21 \u0e2d\u0e38\u0e1b\u0e01\u0e23\u0e13\u0e4c\u0e2d\u0e34\u0e40\u0e25\u0e47\u0e01\u0e17\u0e23\u0e2d\u0e19\u0e34\u0e01\u0e2a\u0e4c \u0e41\u0e25\u0e30\u0e01\u0e32\u0e23\u0e1a\u0e31\u0e19\u0e17\u0e36\u0e01\u0e02\u0e49\u0e2d\u0e21\u0e39\u0e25\u0e14\u0e49\u0e27\u0e22\u0e41\u0e16\u0e1a\u0e41\u0e21\u0e48\u0e40\u0e2b\u0e25\u0e47\u0e01<\/strong> \u0e2b\u0e23\u0e37\u0e2d\u0e2d\u0e32\u0e08\u0e19\u0e33\u0e44\u0e1b\u0e1e\u0e31\u0e12\u0e19\u0e32\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e2d\u0e38\u0e1b\u0e01\u0e23\u0e13\u0e4c\u0e17\u0e35\u0e48\u0e21\u0e35\u0e2d\u0e22\u0e39\u0e48\u0e41\u0e25\u0e49\u0e27\u0e43\u0e2b\u0e49\u0e21\u0e35\u0e1b\u0e23\u0e30\u0e2a\u0e34\u0e17\u0e18\u0e34\u0e20\u0e32\u0e1e\u0e2a\u0e39\u0e07\u0e02\u0e36\u0e49\u0e19\u0e44\u0e14\u0e49\u0e42\u0e14\u0e22\u0e01\u0e32\u0e23\u0e40\u0e15\u0e34\u0e21\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e17\u0e35\u0e48\u0e2a\u0e31\u0e07\u0e40\u0e04\u0e23\u0e32\u0e30\u0e2b\u0e4c\u0e44\u0e14\u0e49\u0e40\u0e2b\u0e25\u0e48\u0e32\u0e19\u0e35\u0e49\u0e25\u0e07\u0e44\u0e1b\u0e40\u0e1b\u0e47\u0e19\u0e2a\u0e48\u0e27\u0e19\u0e1b\u0e23\u0e30\u0e01\u0e2d\u0e1a\u00a0 \u0e19\u0e2d\u0e01\u0e08\u0e32\u0e01\u0e19\u0e35\u0e49\u0e22\u0e31\u0e07\u0e21\u0e35\u0e1c\u0e25\u0e07\u0e32\u0e19\u0e28\u0e36\u0e01\u0e29\u0e32\u0e27\u0e34\u0e08\u0e31\u0e22\u0e43\u0e19\u0e01\u0e25\u0e38\u0e48\u0e21\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e1e\u0e25\u0e31\u0e07\u0e07\u0e32\u0e19\u0e44\u0e14\u0e49\u0e41\u0e01\u0e48 \u0e01\u0e32\u0e23\u0e1b\u0e23\u0e30\u0e14\u0e34\u0e29\u0e10\u0e4c\u0e40\u0e0b\u0e25\u0e25\u0e4c\u0e2a\u0e38\u0e23\u0e34\u0e22\u0e30\u0e0a\u0e19\u0e34\u0e14\u0e2a\u0e35\u0e22\u0e49\u0e2d\u0e21\u0e44\u0e27\u0e41\u0e2a\u0e07<\/strong> (Dye sensitized solar cell, DSSC) \u0e17\u0e35\u0e48\u0e43\u0e0a\u0e49\u0e2a\u0e35\u0e2a\u0e01\u0e31\u0e14\u0e08\u0e32\u0e01\u0e18\u0e23\u0e23\u0e21\u0e0a\u0e32\u0e15\u0e34\u0e02\u0e2d\u0e07\u0e02\u0e49\u0e32\u0e27\u0e42\u0e1e\u0e14\u0e2a\u0e35\u0e21\u0e48\u0e27\u0e07\u0e08\u0e32\u0e01\u0e44\u0e23\u0e48\u0e02\u0e2d\u0e07\u0e04\u0e13\u0e30\u0e40\u0e01\u0e29\u0e15\u0e23\u0e28\u0e32\u0e2a\u0e15\u0e23\u0e4c \u0e21\u0e2b\u0e32\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22\u0e02\u0e2d\u0e19\u0e41\u0e01\u0e48\u0e19 \u0e40\u0e1b\u0e47\u0e19\u0e2a\u0e35\u0e22\u0e49\u0e2d\u0e21\u0e0b\u0e36\u0e48\u0e07\u0e40\u0e1b\u0e47\u0e19\u0e01\u0e32\u0e23\u0e23\u0e32\u0e22\u0e07\u0e32\u0e19\u0e1c\u0e25\u0e01\u0e32\u0e23\u0e27\u0e34\u0e08\u0e31\u0e22\u0e40\u0e1b\u0e47\u0e19\u0e04\u0e23\u0e31\u0e49\u0e07\u0e41\u0e23\u0e01 \u0e19\u0e2d\u0e01\u0e08\u0e32\u0e01\u0e19\u0e35\u0e49\u0e22\u0e31\u0e07\u0e44\u0e14\u0e49\u0e19\u0e33\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e2d\u0e37\u0e48\u0e19\u0e21\u0e32\u0e43\u0e0a\u0e49\u0e17\u0e14\u0e41\u0e17\u0e19\u0e02\u0e31\u0e49\u0e27\u0e40\u0e04\u0e32\u0e19\u0e4c\u0e40\u0e15\u0e2d\u0e23\u0e4c\u0e02\u0e2d\u0e07 DSSC \u0e17\u0e35\u0e48\u0e17\u0e33\u0e08\u0e32\u0e01\u0e42\u0e25\u0e2b\u0e30 Pt \u0e0b\u0e36\u0e48\u0e07\u0e21\u0e35\u0e23\u0e32\u0e04\u0e32\u0e41\u0e1e\u0e07 \u0e40\u0e1e\u0e37\u0e48\u0e2d\u0e25\u0e14\u0e15\u0e49\u0e19\u0e17\u0e38\u0e19\u0e01\u0e32\u0e23\u0e1c\u0e25\u0e34\u0e15\u0e43\u0e2b\u0e49\u0e15\u0e48\u0e33\u0e25\u0e07\u0e0b\u0e36\u0e48\u0e07\u0e43\u0e19\u0e07\u0e32\u0e19\u0e27\u0e34\u0e08\u0e31\u0e22\u0e19\u0e35\u0e49\u0e44\u0e14\u0e49\u0e19\u0e33\u0e2d\u0e19\u0e38\u0e20\u0e32\u0e04\u0e19\u0e32\u0e42\u0e19 NiS(NPs) \u0e41\u0e25\u0e30SrTi1-x<\/sub>CoX<\/sub>O3<\/sub>(NPs) \u0e17\u0e35\u0e48\u0e2a\u0e31\u0e07\u0e40\u0e04\u0e23\u0e32\u0e30\u0e2b\u0e4c\u0e02\u0e36\u0e49\u0e19\u0e44\u0e14\u0e49\u0e40\u0e2d\u0e07\u0e43\u0e19\u0e2b\u0e49\u0e2d\u0e07\u0e1b\u0e0f\u0e34\u0e1a\u0e31\u0e15\u0e34\u0e01\u0e32\u0e23\u0e40\u0e1b\u0e47\u0e19\u0e2a\u0e48\u0e27\u0e19\u0e1c\u0e2a\u0e21\u0e43\u0e19\u0e01\u0e32\u0e23\u0e17\u0e33\u0e02\u0e31\u0e49\u0e27\u0e40\u0e04\u0e32\u0e19\u0e4c\u0e40\u0e15\u0e2d\u0e23\u0e4c\u0e02\u0e2d\u0e07 DSSC \u0e19\u0e31\u0e48\u0e19\u0e04\u0e37\u0e2d\u0e1b\u0e23\u0e30\u0e14\u0e34\u0e29\u0e10\u0e4c\u0e02\u0e31\u0e49\u0e27\u0e40\u0e04\u0e32\u0e19\u0e4c\u0e40\u0e15\u0e2d\u0e23\u0e4c\u0e08\u0e32\u0e01 NiS(NPs)\/PEDOT:PSS \u0e41\u0e25\u0e30 SrTi1-x<\/sub>CoX<\/sub>O3<\/sub>(NPs)\/PEDOT:PSS \u0e0b\u0e36\u0e48\u0e07\u0e43\u0e2b\u0e49\u0e1c\u0e25\u0e25\u0e31\u0e1e\u0e18\u0e4c\u0e17\u0e35\u0e48\u0e14\u0e35\u0e21\u0e32\u0e01\u0e04\u0e37\u0e2d\u0e43\u0e2b\u0e49\u0e40\u0e0b\u0e25\u0e25\u0e4c\u0e17\u0e35\u0e48\u0e21\u0e35\u0e1b\u0e23\u0e30\u0e2a\u0e34\u0e17\u0e18\u0e34\u0e20\u0e32\u0e1e\u0e2a\u0e39\u0e07\u0e17\u0e31\u0e14\u0e40\u0e17\u0e35\u0e22\u0e21\u0e01\u0e31\u0e1a\u0e01\u0e32\u0e23\u0e43\u0e0a\u0e49\u0e42\u0e25\u0e2b\u0e30 Pt<\/strong> \u00a0\u0e2d\u0e35\u0e01\u0e01\u0e25\u0e38\u0e48\u0e21\u0e1c\u0e25\u0e07\u0e32\u0e19\u0e17\u0e35\u0e48\u0e19\u0e48\u0e32\u0e2a\u0e19\u0e43\u0e08\u0e04\u0e37\u0e2d\u0e01\u0e32\u0e23\u0e2a\u0e31\u0e07\u0e40\u0e04\u0e23\u0e32\u0e30\u0e2b\u0e4c\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e40\u0e0b\u0e23\u0e32\u0e21\u0e34\u0e01\u0e2a\u0e4c\u0e17\u0e35\u0e48\u0e21\u0e35\u0e04\u0e38\u0e13\u0e2a\u0e21\u0e1a\u0e31\u0e15\u0e34\u0e17\u0e35\u0e48\u0e40\u0e23\u0e35\u0e22\u0e01\u0e27\u0e48\u0e32 \u0e44\u0e08\u0e41\u0e2d\u0e19\u0e15\u0e4c\u0e44\u0e14\u0e2d\u0e34\u0e40\u0e25\u0e47\u0e01\u0e17\u0e23\u0e34\u0e01<\/strong> \u0e43\u0e19\u0e2a\u0e32\u0e23\u0e01\u0e25\u0e38\u0e48\u0e21 CaCu3<\/sub>Ti4<\/sub>O12<\/sub> (CCTO) \u0e1c\u0e25\u0e25\u0e31\u0e1e\u0e18\u0e4c\u0e17\u0e35\u0e48\u0e2a\u0e33\u0e04\u0e31\u0e0d\u0e04\u0e37\u0e2d\u0e2a\u0e32\u0e21\u0e32\u0e23\u0e16\u0e25\u0e14\u0e04\u0e48\u0e32\u0e1b\u0e23\u0e34\u0e21\u0e32\u0e13\u0e41\u0e17\u0e19\u0e40\u0e08\u0e19\u0e15\u0e4c\u0e01\u0e32\u0e23\u0e2a\u0e39\u0e0d\u0e40\u0e2a\u0e35\u0e22\u0e44\u0e14\u0e49\u0e25\u0e07\u0e15\u0e48\u0e33\u0e21\u0e32\u0e01(\u0e19\u0e49\u0e2d\u0e22\u0e01\u0e27\u0e48\u0e32 0.05) \u0e41\u0e25\u0e30\u0e22\u0e31\u0e07\u0e04\u0e07\u0e44\u0e27\u0e49\u0e0b\u0e36\u0e48\u0e07\u0e04\u0e48\u0e32\u0e04\u0e07\u0e15\u0e31\u0e27\u0e44\u0e14\u0e2d\u0e34\u0e40\u0e25\u0e47\u0e01\u0e17\u0e23\u0e34\u0e01\u0e2a\u0e39\u0e07(\u0e21\u0e35\u0e04\u0e48\u0e32\u0e21\u0e32\u0e01\u0e01\u0e27\u0e48\u0e32 10,000) \u0e2d\u0e35\u0e01\u0e17\u0e31\u0e49\u0e07\u0e22\u0e31\u0e07\u0e2a\u0e32\u0e21\u0e32\u0e23\u0e16\u0e43\u0e0a\u0e49\u0e07\u0e32\u0e19\u0e44\u0e14\u0e49\u0e14\u0e35\u0e43\u0e19\u0e0a\u0e48\u0e27\u0e07\u0e2d\u0e38\u0e13\u0e2b\u0e20\u0e39\u0e21\u0e34\u0e17\u0e35\u0e48\u0e01\u0e27\u0e49\u0e32\u0e07\u0e21\u0e32\u0e01\u0e22\u0e34\u0e48\u0e07\u0e02\u0e36\u0e49\u0e19\u0e01\u0e27\u0e48\u0e32\u0e40\u0e14\u0e34\u0e21\u0e40\u0e2b\u0e21\u0e32\u0e30\u0e17\u0e35\u0e48\u0e08\u0e30\u0e19\u0e33\u0e44\u0e1b\u0e1b\u0e23\u0e30\u0e14\u0e34\u0e29\u0e10\u0e4c\u0e40\u0e1b\u0e47\u0e19\u0e2d\u0e38\u0e1b\u0e01\u0e23\u0e13\u0e4c\u0e15\u0e31\u0e27\u0e40\u0e01\u0e47\u0e1a\u0e1b\u0e23\u0e30\u0e08\u0e38\u0e0a\u0e19\u0e34\u0e14 X7R, X8R \u0e41\u0e25\u0e30 X9R \u0e15\u0e32\u0e21\u0e40\u0e01\u0e13\u0e11\u0e4c\u0e21\u0e32\u0e15\u0e23\u0e10\u0e32\u0e19\u0e02\u0e2d\u0e07 EIA<\/strong> \u0e1c\u0e25\u0e07\u0e32\u0e19\u0e27\u0e34\u0e08\u0e31\u0e22\u0e2d\u0e35\u0e01\u0e01\u0e25\u0e38\u0e48\u0e21\u0e2b\u0e19\u0e36\u0e48\u0e07\u0e17\u0e35\u0e48\u0e15\u0e2d\u0e1a\u0e42\u0e08\u0e17\u0e22\u0e4c\u0e2d\u0e38\u0e15\u0e2a\u0e32\u0e2b\u0e01\u0e23\u0e23\u0e21\u0e01\u0e32\u0e23\u0e01\u0e31\u0e01\u0e40\u0e01\u0e47\u0e1a\u0e1e\u0e25\u0e31\u0e07\u0e07\u0e32\u0e19\u0e43\u0e19\u0e22\u0e38\u0e04\u0e1b\u0e31\u0e08\u0e08\u0e38\u0e1a\u0e31\u0e19\u0e17\u0e35\u0e48\u0e2a\u0e33\u0e04\u0e31\u0e0d\u0e01\u0e47\u0e04\u0e37\u0e2d\u0e01\u0e32\u0e23\u0e1b\u0e23\u0e30\u0e14\u0e34\u0e29\u0e10\u0e4c\u0e15\u0e31\u0e27\u0e40\u0e01\u0e47\u0e1a\u0e1b\u0e23\u0e30\u0e08\u0e38\u0e22\u0e27\u0e14\u0e22\u0e34\u0e48\u0e07\u0e17\u0e35\u0e48\u0e21\u0e35\u0e02\u0e31\u0e49\u0e27\u0e44\u0e1f\u0e1f\u0e49\u0e32\u0e17\u0e33\u0e08\u0e32\u0e01\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e04\u0e2d\u0e21\u0e42\u0e1e\u0e2a\u0e34\u0e15\u0e02\u0e2d\u0e07\u0e42\u0e25\u0e2b\u0e30\u0e2d\u0e2d\u0e01\u0e44\u0e0b\u0e14\u0e4c\u0e01\u0e31\u0e1a\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e04\u0e32\u0e23\u0e4c\u0e1a\u0e2d\u0e19\u0e17\u0e35\u0e48\u0e2a\u0e31\u0e07\u0e40\u0e04\u0e23\u0e32\u0e30\u0e2b\u0e4c\u0e08\u0e32\u0e01\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e40\u0e2b\u0e25\u0e37\u0e2d\u0e17\u0e34\u0e49\u0e07\u0e17\u0e32\u0e07\u0e01\u0e32\u0e23\u0e40\u0e01\u0e29\u0e15\u0e23\u0e40\u0e0a\u0e48\u0e19 \u0e40\u0e2a\u0e49\u0e19\u0e43\u0e22\u0e21\u0e30\u0e1e\u0e23\u0e49\u0e32\u0e27 \u0e41\u0e01\u0e25\u0e1a \u0e01\u0e31\u0e0d\u0e0a\u0e07 \u0e0b\u0e31\u0e07\u0e02\u0e49\u0e32\u0e27\u0e42\u0e1e\u0e14 \u0e40\u0e1b\u0e47\u0e19\u0e15\u0e49\u0e19 \u0e0b\u0e36\u0e48\u0e07\u0e40\u0e1b\u0e47\u0e19\u0e01\u0e32\u0e23\u0e40\u0e1e\u0e34\u0e48\u0e21\u0e21\u0e39\u0e25\u0e04\u0e48\u0e32\u0e43\u0e19\u0e40\u0e0a\u0e34\u0e07\u0e1e\u0e32\u0e13\u0e34\u0e0a\u0e22\u0e4c\u0e43\u0e2b\u0e49\u0e01\u0e31\u0e1a\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e40\u0e2b\u0e25\u0e48\u0e32\u0e19\u0e35\u0e49<\/p>\r\n

      \u0e1c\u0e25\u0e07\u0e32\u0e19\u0e27\u0e34\u0e08\u0e31\u0e22\u0e08\u0e32\u0e01\u0e1b\u0e35 \u0e04.\u0e28. 2007-2023 \u0e21\u0e35\u0e17\u0e31\u0e49\u0e07\u0e2b\u0e21\u0e14\u0e08\u0e33\u0e19\u0e27\u0e19 103 \u0e40\u0e23\u0e37\u0e48\u0e2d\u0e07\u0e17\u0e35\u0e48\u0e15\u0e35\u0e1e\u0e34\u0e21\u0e1e\u0e4c\u0e40\u0e1c\u0e22\u0e41\u0e1e\u0e23\u0e48\u0e43\u0e19\u0e27\u0e32\u0e23\u0e2a\u0e32\u0e23\u0e23\u0e30\u0e14\u0e31\u0e1a\u0e19\u0e32\u0e19\u0e32\u0e0a\u0e32\u0e15\u0e34\u0e17\u0e35\u0e48\u0e2d\u0e22\u0e39\u0e48\u0e43\u0e19\u0e10\u0e32\u0e19\u0e02\u0e49\u0e2d\u0e21\u0e39\u0e25\u0e17\u0e35\u0e48\u0e1b\u0e23\u0e32\u0e01\u0e0f\u0e43\u0e19 Web of Science\/ISI\/Scopus\/SciMargo \u0e42\u0e14\u0e22\u0e41\u0e1a\u0e48\u0e07\u0e40\u0e1b\u0e47\u0e19 Q1(47), Q2(51), Q3(3), Q4(2) [First-author (21), Co-author (44) \u0e41\u0e25\u0e30 Corr.-author (38)]<\/p>\r\n

      [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”\u0e07\u0e32\u0e19\u0e27\u0e34\u0e08\u0e31\u0e22\u0e17\u0e35\u0e48\u0e2a\u0e19\u0e43\u0e08” tab_id=”1675439617221-2c2466ea-8e8a”][vc_column_text animation=”bounceInDown”]<\/p>\r\n\r\n

        \r\n
      1. \r\n
          \r\n
        1. Magnetic properties of ferrites and others related metal oxide (synthesis and characterization)<\/li>\r\n\r\n\r\n\r\n
        2. Dye sensitized solar cell (DSSC)<\/li>\r\n\r\n\r\n\r\n
        3. Dielectric properties of CCTO and related materials<\/li>\r\n\r\n\r\n\r\n
        4. Supercapacitors (synthesis and characterization)<\/li>\r\n<\/ol>\r\n<\/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=”1675439617231-0121e8dc-ebac”][vc_column_text animation=”bounceInDown”]<\/p>\r\n

            \r\n
          1. Putjuso, S. Putjuso, A. Karaphun, P. Moontragoon, I. Kotutha and E. Swatsitang*<\/strong>, Influence of Co doping on phase, structure and electrochemical properties of hydrothermally obtained Cox<\/sub>Zn1-x<\/sub>Fe2<\/sub>O4<\/sub> (x = 0.0\u20130.4) nanoparticles, Sci. Rep.,<\/strong> 13 (2023)<\/strong>, 2531. (Q1\/T1, IF=4.996)<\/strong>.<\/li>\r\n
          2. Putjuso, S. Putjuso, A. Karaphun, S. Nijpanich, N. Chanlek, and E. Swatsitang*<\/strong>, Hydrothermally obtained \u03b2<\/em>-MnO2<\/sub> nanoparticles\/activated carbonized coconut fibers composites, electrochemical properties study for future energy storage devices, Appl. Surf. Sci.<\/strong>, 618 (2023)<\/strong>, 156653. (Q1\/T1, IF=6.707)<\/strong>.<\/li>\r\n
          3. Silakaew, E. Swatsitang and P. Thongbai*<\/strong>, Novel polymer composites of RuO2@nBaTiO3\/PVDF with a high dielectric constant, Ceram., (2022)<\/strong> (Q1\/T1, IF=4.527)<\/strong>.<\/li>\r\n
          4. Wannasen, N. Chanlek, S. Siriroj, S. Maensiri, E. Swatsitang and S. Pinitsoontorn*<\/strong>, Enhanced Electrochemical Performance of Sugarcane Bagasse-Derived Activated Carbon via a High-Energy Ball Milling Treatment, Nanomaterials,<\/strong> 12 (2022)<\/strong>, 3555. (Q1, IF=5.719)<\/strong>.<\/li>\r\n
          5. Theprattanakorn, S. Pongha, L. Wannasen, W. Mongkolthanaruk, N. Meethong, E. Swatsitang and S. Pinitsoontorn*<\/strong>, Fe metal-organic framework\/pyrolyzed bacterial cellulose composite as a high-performance anode for lithium-ion batteries, Int. J. Energy Res.,<\/strong> (2022)<\/strong>, 1\u201314. (Q1, IF=5.164)<\/strong>.<\/li>\r\n
          6. Swatsitang, S. Putjuso, S. Nijpanich, M. Sriphakdee and T. Putjuso*<\/strong>, A novel CaCu2.8-x<\/sub>Znx<\/sub>Ti4<\/sub>O12<\/sub> system: a high-performance dielectric with nonlinear J – E properties, J.<\/strong>Mater.<\/strong>\u00a0Res.<\/strong>\u00a0Technol<\/strong>., 19 (2022)<\/strong>, 4473-4488. (Q1\/T2, IF=6.267)<\/strong>.<\/li>\r\n
          7. Prachamon, J. Boonlakhorn, N. Chanlek, N. Phromviyo, V. Harnchana, P. Srepusharawoot, E. Swatsitang and P. Thongbai*<\/strong>, Enhanced dielectric response and non-Ohmic properties of Ge-doped CaTiO3<\/sub>\/CaCu3<\/sub>Ti4<\/sub>O12<\/sub>, J. Asian Ceram. Soc<\/strong>., (2022)<\/strong>, 1-9. (Q2, IF=3.125)<\/strong>.<\/li>\r\n
          8. Swatsitang, S. Putjuso, S. Nijpanich and T. Putjuso*,<\/strong> Modification of Cu-deficient CaCu2.8<\/sub>Ti4<\/sub>O12<\/sub> ceramics via Mg2+<\/sup>substitution at Cu sites for improved dielectric properties and thermal stability, J. Alloys Compd., 902 (2022)<\/strong>, 163643. <\/strong>(Q1\/T1, IF=6.371)<\/strong>.<\/li>\r\n
          9. Swatsitang, S. Nijpanich, S. Putjuso and T. Putjuso<\/strong>*, Effect of sintering temperature and Sm3+<\/sup> doping on the dielectric properties and non-Ohmic behavior of Ca1-1.5x<\/em><\/sub>Smx<\/sub><\/em>Cu3<\/sub>Ti4.2<\/sub>O12<\/sub> (x <\/em>= 0.05 and 0.10) ceramics, Results Phys<\/strong>., 30 (2021)<\/strong>, 104896. (Q1\/T1, IF=4.476)<\/strong>.<\/li>\r\n
          10. Wannasen, W. Mongkolthanaruk, E. Swatsitang, P. Pavasant and S. Pinitsoontorn*<\/strong>, Co2<\/sub>P2<\/sub>O7<\/sub> Microplate\/Bacterial Cellulose\u2013Derived Carbon Nanofiber Composites with Enhanced Electrochemical Performance, Nanomaterials, 11 (2021)<\/strong>, 2015. (Q1, IF=5.810).<\/strong><\/li>\r\n
          11. Swatsitang, P. Kumnorkaew and T. Putjuso*<\/strong>, Thermal stability improvement of dielectric properties and non-ohmic characteristic of CaCu3+x<\/em><\/sub>Ti4<\/sub>O12<\/sub> ceramics via a Cu-nonstoichiometric approach, Ceram., (2021)<\/strong>, 1-14. (Q1\/T1, IF=4.527)<\/strong>.<\/li>\r\n
          12. Sawadsitang, T. Duangchuen, A. Karaphun, T. Putjuso, P. Kumnorkaew and E. Swatsitang*,<\/strong> Synthesis, characterization and electrochemical properties of activated coconut fiber carbon (ACFC) and CuO\/ACFC nanocomposites for applying as electrodes of supercapacitor devices, Surf. Interfaces, 25 (2021)<\/strong>, 101174. (Q1, IF=4.837)<\/strong>.<\/li>\r\n
          13. Karaphun, S. Sawadsitang, T. Duangchuen, P. Chirawatkul, T. Putjuso, P. Kumnorkaew, S. Maensiri and E. Swatsitang*<\/strong>, Influence of calcination temperature on structural, morphological, and electrochemical properties of Zn2<\/sub>P2<\/sub>O7<\/sub> nanostructure, Surf. Interfaces, 23 (2021), 100961<\/strong>. (Q1, IF=4.837)<\/strong>.<\/li>\r\n
          14. Thanamoon, N. Chanlek, P. Srepusharawoot, E. Swatsitang and P. Thongbai*<\/strong>, Microstructural Evolution and High Performance Giant Dielectric Properties of Lu3+<\/sup>\/Nb5+<\/sup> Co-Doped TiO2<\/sub> Ceramics, Molecules, 26 (2021), <\/strong>7041. (Q1, IF=4.148)<\/strong>.<\/li>\r\n
          15. Sreejivungsa, N. Phromviyo, E. Swatsitang and P. Thongbai*<\/strong>, Characterizations and Significantly Enhanced Dielectric Properties of PVDF Polymer Nanocomposites by Incorporating Gold Nanoparticles Deposited on BaTiO3 Nanoparticles, Polymers, (2021)<\/strong>. (Q1, IF=4.207)<\/strong>.<\/li>\r\n
          16. Wongpratat, P. Tipsawat, J. Khajonrit, E. Swatsitang and S. Maensiri*<\/strong>, Effects of Nickel and Magnesium on electrochemical performances of partial substitution in spinel ferrite, J. Alloys Compd., 831 (2020)<\/strong>, 154718. (Q1\/T1, IF=6.371)<\/strong>.<\/li>\r\n
          17. Wannasen, E. Swatsitang and S. Pinitsoontorn*<\/strong>, Flexible supercapacitors based on mesoporous nanocrystalline cobalt ammonium phosphates and bacterial cellulose composite electrode, Int. J. Energy Res., (2020), <\/strong>1\u201314. (Q1, IF=5.164)<\/strong>.<\/li>\r\n
          18. Tontapha, W. Sang-aroon, T. Promgool, S. Kanokmedhakul, W. Maiaugree, E. Swatsitang, V. Homrahad and V. Amornkitbumrung*<\/strong>, Electrocatalytic activity of disulfide\/thiolate with graphene nanosheets as an efficient counter electrode for DSSCs: A DFT study, Mater.<\/strong>Today Commun., (2019)<\/strong>. (Q2, IF=3.383)<\/strong>.<\/li>\r\n
          19. Swatsitang, A. Karaphun and T. Putjuso*<\/strong>, Influence of Fe:Co co\u2013doping on the morphology, optical and magnetic properties of Cu1-(x+y)<\/sub>Fex<\/sub>Coy<\/sub>O nanostructures prepared by a hydrothermal method, Physica B:Condens.,<\/strong> 583 (2020)<\/strong> 412044. (Q2, IF=2.88)<\/strong>.<\/li>\r\n
          20. P. Pradubkorn, S. Maensiri, E. Swatsitang and P. Laokul*<\/strong>, Preparation and characterization of hollow TiO2<\/sub> nanospheres: The effect of Fe3+<\/sup> doping on their microstructure and electronic structure, Appl. Phys., 20 (2020)<\/strong>, 178\u2013185. (Q2, IF=2.64)<\/strong>.<\/li>\r\n
          21. Swatsitang, K. Prompa and T. Putjuso*<\/strong>, Temperature stability of the dielectric properties of Zr4+<\/sup>-doped CaCu3<\/sub>Ti4.2<\/sub>O12<\/sub> ceramics for X9R capacitor applications, J. Alloys Compd., 789 (2019), <\/strong>231-239. (Q1\/T1, IF=6.371)<\/strong>.<\/li>\r\n
          22. Duangchuen, A. Karaphun, L. Wannasen, I. Kotutha and E. Swatsitang*<\/strong>, Effect of SnS2<\/sub> concentrations on electrochemical properties of SnS2<\/sub>\/RGO nanocomposites synthesized by a one-pot hydrothermal method, Appl. Surf. Sci.<\/strong>, 487 (2019)<\/strong>, 634\u2013646. (Q1\/T1, IF=6.707)<\/strong>.<\/li>\r\n
          23. Swatsitang, K. Prompa and T. Putjuso*<\/strong>, Ni2+<\/sup>-doped CaCu3<\/sub>Ti4<\/sub>O12<\/sub>\/TiO2<\/sub> nanocomposite ceramics with high temperature stability dielectric and nonlinear electrical properties for X9R capacitors, Appl. Surf. Sci., 484 (2019)<\/strong>, 925\u2013932. (Q1\/T1, IF=6.707)<\/strong>.<\/li>\r\n
          24. Swatsitang, K. Prompa and T. Putjuso*<\/strong>, A novel strategy to improve the thermal stability of dielectric properties and reduce the dielectric loss tangent of Ca1-1.5x<\/sub>Prx<\/sub>Cu3<\/sub>Ti4<\/sub>O12<\/sub>\/TiO2<\/sub> ceramics, Ceram., 45 (2019)<\/strong>, 14733\u201314741. (Q1\/T1, IF=4.527)<\/strong>.<\/li>\r\n
          25. Swatsitang, K. Prompa and T. Putjuso*<\/strong>, Very high temperature stability and excellent dielectric properties of a novel X9R-type Ca1-x<\/sub>Srx<\/sub>Cu3<\/sub>Ti4<\/sub>O12<\/sub>\/TiO2<\/sub> nanocomposite synthesized by a polymer pyrolysis technique, Appl. Surf. Sci.,<\/strong> 478 (2019)<\/strong>, 197\u2013205. (Q1\/T1, IF=6.707)<\/strong>.<\/li>\r\n
          26. Swatsitang, K. Prompa and T. Putjuso*<\/strong>, Effect of Sn4+<\/sup> doping on the dielectric and nonlinear J-E properties of CaCu3<\/sub>Ti4.1<\/sub>O12<\/sub> ceramics with a slight titanium excess for X9R capacitors, J.<\/strong>Mater.<\/strong>\u00a0Sci.: Mater.<\/strong>\u00a0Electron<\/strong>., 30 (2019)<\/strong>, 20789\u201320800. (Q2, IF=2.478)<\/strong>.<\/li>\r\n
          27. Songwattanasin, A. Karaphun, S. Phokha, S. Hunpratub, S. Maensiri, V.Amornkitbamrung and E. Swatsitang*,<\/strong> Influence of La concentration on structural, morphological, optical and magnetic properties of Sr1-x<\/sub> Lax<\/sub>TiO3<\/sub> nanopowders, Physica B: Condens., 571 (2019)<\/strong>, 213\u2013221. (Q2, IF=2.88)<\/strong>.<\/li>\r\n
          28. Maiaugree, T. Tansoonton, V. Amornkitbamrung and E. Swatsitang*<\/strong>, Ni3<\/sub>S2<\/sub>@MWCNTs films for effective counter electrodes of dye-sensitized solar cells, Curr. Appl. Phys., 19 (2019), <\/strong>1355\u20131361. (Q2, IF=2.64)<\/strong>.<\/li>\r\n
          29. Kotutha, T. Duangchuen, E. Swatsitang, W. Meewasana, J. Khajonrit and Santi Maensiri*<\/strong>, Electrochemical properties of rGO\/CoFe2<\/sub>O4<\/sub> nanocomposites for energy storage application, Ionics, (2019).<\/strong> (Q2, IF=2.817).<\/strong><\/li>\r\n
          30. Sripakdee, K. Prompa, E. Swatsitang and Thanin Putjuso*<\/strong>, Very high-performance dielectric and non-ohmic properties of novel X8R type Ca1-1.5x<\/sub>Hox<\/sub>Cu3<\/sub>Ti4<\/sub>O12<\/sub>\/TiO2<\/sub> ceramics, J. Alloys Compd., 779 (2019), <\/strong>521-530. (Q1\/T1, IF=6.371)<\/strong>.<\/li>\r\n
          31. Karaphun, S. Maensiri,S and E. Swatsitang*<\/strong>, Effect of calcination on structural, morphological, magnetic and electrochemical properties of mesoporous Ni2<\/sub>P2<\/sub>O7<\/sub> microplates, J.<\/strong>Mater.<\/strong>\u00a0Sci.: Mater.<\/strong>\u00a0Electron<\/strong>., (2019)<\/strong>. (Q2, IF=2.478)<\/strong>.<\/li>\r\n
          32. Wannasen, N. Chanlek, S. Maensiri, and E. Swatsitang*<\/strong>, Composition effect of Co\/Ni on the morphology and electrochemical properties of NH4<\/sub>Co1\u2212x<\/sub>Nix<\/sub>PO4<\/sub>\u00b7H2<\/sub>O nanocrystallites prepared by a facile hydrothermal method, J.<\/strong>Mater.<\/strong>\u00a0Sci.: Mater.<\/strong>\u00a0Electron<\/strong>., 30 (2019)<\/strong>, 7794\u20137807. (Q2, IF=2.478)<\/strong>.<\/li>\r\n
          33. Tansoonton, W. Maiaugree, A. Karaphun, I. Kotutha and E. Swatsitang*, <\/strong>Synthesis of MoS2<\/sub>-MoO2<\/sub>\/MWCNTs counter electrode for high efficiency dye sensitized solar cells, J. Mater. Sci.: Mater. Electron., 30 (2019),<\/strong> 20778\u201320788. (Q2, IF=2.478).<\/strong><\/li>\r\n
          34. Songwattanasin, A. Karaphun, S. Hunpratub, S. Maensiri, E. Swatsitang*<\/strong> and V. Amornkitbamrung, Influence of Annealing on Microstructure, Electrochemical and Magnetic Properties of Co-Doped SrTiO3<\/sub> Nanocubes, J.<\/strong>Supercond.<\/strong>\u00a0Nov.<\/strong>\u00a0Magn<\/strong>., (2019)<\/strong>, (Q3, IF=1.675).<\/strong><\/li>\r\n
          35. Sikam, P. Moontragoon*<\/strong>, C. Sararat, A. Karaphun, E. Swatsitang, S. Pinitsoontorn and P. Thongbai, DFT calculation and experimental study on structural, optical and magnetic properties of Co-doped SrTiO3<\/sub>, Appl. Surf. Sci., (2018).<\/strong> (Q1\/T1, IF=6.707).<\/strong><\/li>\r\n
          36. Karaphun, S. Phokha, S. Hunpratub, T. Putjuso and E. Swatsitang*<\/strong>, Influence of Ba substitution, Fe doping and annealing effect on magnetic and optical properties of Sr0.9<\/sub>Ba0.1<\/sub>Ti1-x<\/sub>Fex<\/sub>O3<\/sub> nanoparticles prepared by the hydrothermal method, J. Mater. Sci.: Mater. Electron., 29 (2018),<\/strong> 8188\u20138200. (Q2, IF=2.478).<\/strong><\/li>\r\n
          37. Prompa, E. Swatsitang and T. Putjuso*<\/strong>, Enhancement of nonlinear electrical properties with high performance dielectric properties of CaCu2.95<\/sub>Cr0.05<\/sub>Ti4.1<\/sub>O12<\/sub> ceramics, Ceram., (2018)<\/strong>. (Q1\/T1, IF=4.527)<\/strong>.<\/li>\r\n
          38. Karaphun, P. Chirawatkul, S. Maensiri and E. Swatsitang*, <\/strong>Influence of calcination temperature on the structural, morphological, optical, magnetic and electrochemical properties of Cu2<\/sub>P2<\/sub>O7<\/sub> nanocrystals, J Solgel Sci Technol, (2018). (Q2, IF=2.326). <\/strong><\/li>\r\n
          39. Swatsitang, K. Prompa and T. Putjuso*<\/strong>, Very high thermal stability with excellent dielectric, and non-ohmics properties of Mg-doped CaCu3<\/sub>Ti4.2<\/sub>O12<\/sub> ceramics, J. Mater. Sci.: Mater. Electron., 29 (2018), <\/strong>12639\u201312651. (Q2, IF=2.478).<\/strong><\/li>\r\n
          40. Swatsitang and T. Putjuso*, <\/strong>Improved non-ohmic and dielectric properties of Cr3+<\/sup> doped CaCu3<\/sub>Ti4<\/sub>O12 <\/sub>ceramics prepared by a polymer pyrolysis solution route, J.\u00a0Eur.\u00a0Ceram.\u00a0Soc., (2018). (Q1, IF=5.302).\u00a0\u00a0\u00a0\u00a0 <\/strong><\/li>\r\n
          41. Maiaugree, A. Karaphun, V. Amornkitbamrung and E. Swatsitang*<\/strong>, Influence of SrTi1-x<\/sub>Cox<\/sub>O3<\/sub> NPs on electrocatalytic activity of SrTi1-x<\/sub>Cox<\/sub>O3<\/sub> NPs\/PEDOT-PSS counter electrodes for high efficiency dye sensitized solar cells, Energy,<\/strong> 154 (2018)<\/strong>, 182-189. (Q1, IF=7.147).<\/strong><\/li>\r\n
          42. Prompa, E. Swatsitang, C. Saiyasombat and Thanin Putjuso*<\/strong>, Very high-performance dielectric and non-Ohmics properties of CaCu3<\/sub>Ti4.2<\/sub>O12<\/sub> ceramics for X8R capacitors, Ceram., (2018).<\/strong> (Q1\/T1, IF=4.527).<\/strong><\/li>\r\n
          43. Prompa, E. Swatsitang, and Thanin Putjuso*<\/strong>, Ultra-stable X9R type CaCu3-x<\/sub>Znx<\/sub>Ti4.1<\/sub>O12<\/sub> ceramics, Ceram., (2018). (Q1\/T1, IF=4.527).<\/strong><\/li>\r\n
          44. A. Karaphun, S. Kaewmala, N. Meethong, S. Hunpratub and Swatsitang<\/strong>*<\/strong>, Electrochemical and Magnetic Properties of Electrospun SrTi1\u2212x<\/sub>Fex<\/sub>O3<\/sub> (x = 0, 0.05 and 0.10) Nanofibers for Anodes of Li-Ion Batteries, J.<\/strong>Supercond.<\/strong>\u00a0Nov.<\/strong>\u00a0Magn.<\/strong>, 31<\/strong> (2017)<\/strong>, 1909\u20131916. (Q3, IF=1.675).<\/strong><\/li>\r\n
          45. Wongpratat, <\/strong>S. Maensiri and E. Swatsitang*, <\/strong>Effect of Mg substitution on magnetic properties of Co1\u2212x<\/sub>Mgx<\/sub>Fe2<\/sub>O4<\/sub> nanoparticles investigated by EXAFS analysis, Ceram., (2017). (Q1\/T1, IF=4.527).<\/strong><\/li>\r\n
          46. Karaphun, S. Hunpratub, S. Phokha, T. Putjuso and E. Swatsitang*<\/strong>, Characterization and magnetic properties of SrTi1-x<\/sub>Nix<\/sub>O3 <\/sub>nanoparticles prepared by hydrothermal method, Physica B: Condens., 504<\/strong> (2017),<\/strong> 31\u201338. (Q2, IF=2.88)<\/strong>.<\/li>\r\n
          47. Swatsitang and T. Putjuso*<\/strong>, Very low loss tangent, high dielectric and non-ohmic properties of Ca1-1.5x<\/sub>Prx<\/sub>Cu3<\/sub>Ti4<\/sub>O12 <\/sub>ceramics prepared by the sol-gel process, J. Mater. Sci.: Mater. Electron., <\/strong>(2017). (Q2, IF=2.478).<\/strong><\/li>\r\n
          48. Prompa, E. Swatsitang, and Thanin Putjuso*<\/strong>, Very low loss tangent and giant dielectric propertiesof CaCu3<\/sub>Ti4<\/sub>O12 <\/sub>ceramics prepared by the sol\u2013gel process, J. Mater. Sci.: Mater. Electron., 28 (2017),<\/strong>15033\u201315042 (Q2, IF=2.478).<\/strong><\/li>\r\n
          49. Swatsitang, A. Karaphun, S. Phokha, S. Hunpratub and Thanin Putjuso*<\/strong>, Magnetic and optical properties of Cu1\u2212x<\/sub>Fex<\/sub>O nanosheets prepared by the hydrothermal method, J. Sol-Gel Sci Technol, (2017). <\/strong>(Q2, IF=2.326).<\/strong><\/li>\r\n
          50. Maiaugree, P. Pimparue, W. Jarernboon, S. Pimanpang, V. Amornkitbamrung and E. Swatsitang*,<\/strong> NiS(NPs)-PEDOT-PSS composite counter electrode for a high efficiency dye sensitized solar cell, Mater. Sci. Eng. B.<\/strong>, 220 (2017)<\/strong>, 66\u201372. (Q2, IF=3.407).<\/strong><\/li>\r\n
          51. Karaphun, S. Hunpratub, S. Phokha, T. Putjuso and E. Swatsitang*<\/strong>, Effect of Co cations and oxygen vacancy on optical and magnetic properties of SrTi1\u2212x<\/sub>Cox<\/sub>O3<\/sub> nanoparticles prepared by the hydrothermal method, J. Mater. Sci.: Mater. Electron., 28 (2017),<\/strong>8294\u20138303. (Q2, IF=2.478).<\/strong><\/li>\r\n
          52. Swatsitang, A. Karaphun, S. Phokha, S. Hunpratub and Thanin Putjuso*<\/strong>, Investigation of structural, morphological, optical and magnetic properties of Sm-doped LaFeO3<\/sub> nanopowders prepared by sol-gel method, J. Sol-Gel Sci Technol, (2016). <\/strong>(Q2, IF=2.326).<\/strong><\/li>\r\n
          53. Swatsitang, A. Karaphun, S. Phokha and Thanin Putjuso*<\/strong>, Characterization and magnetic properties of BaSn1-x<\/sub>Fex<\/sub>O3<\/sub> nanoparticles prepared by a modified sol\u2013gel method, J. Sol-Gel Sci Technol, 77 (2016), <\/strong>78-84. (Q2, IF=2.326).<\/strong><\/li>\r\n
          54. Swatsitang, S. Phokha, S. Hunpratub and S. Maensiri*,<\/strong> Characterization of Sm-doped CeO2<\/sub> nanoparticles and their magnetic properties, Physica B: Condens., (2016). (Q2, IF=2.88)<\/strong>.<\/li>\r\n
          55. Swatsitang, S. Phokha*<\/strong>, S. Hunpratub, B. Usher, A. Bootchanont, S. Maensiri and P. Chindaprasirt, Characterization and magnetic properties of cobalt ferrite nanoparticles, J. Alloys Compd., 664 (2016), <\/strong>792-797. (Q1\/T1, IF=6.371)<\/strong>.<\/li>\r\n
          56. Wongpratat, S. Maensiri and E. Swatsitang*<\/strong>, EXAFS analysis of cations distribution in structure of Co1-x<\/sub>Nix<\/sub>Fe2<\/sub>O4<\/sub> nanoparticles obtained by hydrothermal method in aloe vera extract solution,<\/strong> Appl. Surf. Sci., (2016). (Q1\/T1, IF=6.707).<\/strong><\/li>\r\n
          57. Hunpratub, A. Karaphun, S. Phokha and E. Swatsitang*<\/strong>, Optical and magnetic properties of La1-x<\/sub>Gax<\/sub>FeO3<\/sub> nanoparticles synthesized by polymerization complex method, Appl. Surf. Sci., (2016). (Q1\/T1, IF=6.707).<\/strong><\/li>\r\n
          58. Phinjaturus, W. Maiaugree, B. Suriharn, S. Pimanpaeng, V. Amornkitbamrung and E. Swatsitang*, <\/strong>Dye-sensitized solar cells based on purple corn sensitizers, Appl. Surf. Sci., 380 (2016), <\/strong>101-107. (Q1\/T1, IF=6.707).<\/strong><\/li>\r\n
          59. Phromviyo, E. Swatsitang and A. Chompoosor*<\/strong>, The Role of Anionic Stabilizer on the Formation of Polyoxalate Nanoparticles: In Vitro Release and Cytotoxicity of Polyoxalate Nanoparticles, J.<\/strong>Nanoelectron.<\/strong>\u00a0Optoelectron<\/strong>., 10 (2015)<\/strong>, 157-162. (Q4, IF=0.961).<\/strong><\/li>\r\n
          60. Phromviyo, A. Lertitthiporn, E. Swatsitang and A. Chompoosor*<\/strong>, Biodegradable Poly(vinylalcohol)\/Polyoxalate Electrospun Nanofibers for Hydrogen Peroxide Triggered Drug Release, J. Biomater. Sci. Polym. Ed., (2015). (Q2, IF=3.517).<\/strong><\/li>\r\n
          61. Tuichai, P. Sriputshrawoot, E. Swatsitang, S. Danwittayakul and P. Thongbai*<\/strong>, Giant dielectric permittivity and electronic structure in (Al + Sb) co-doped TiO2<\/sub> ceramics, Microelectron. Eng.<\/strong>, 146 (2015)<\/strong>, 32-37. (Q2, IF=2.73).<\/strong><\/li>\r\n
          62. Phokha*<\/strong>, J. Klinkaewnarong, S. Hunpratub, K. Boonserm, E. Swatsitang and S. Maensiri, Ferromagnetism in Fe-doped MgO nanoparticles, J. Mater. Sci.: Mater. Electron., (2015)<\/strong>. (Q2, IF=2.478).<\/strong><\/li>\r\n
          63. Swatsitang, S. Phokha, S. Hunpratub, and S. Maensiri*<\/strong>, Modification of Ce valence state by Sm\/Sr co-doping of CeO2<\/sub> nanoparticles for improved magneto-electrochemical properties, Mater.<\/strong>Des<\/strong>., 108 (2016)<\/strong>, 27\u201333. (Q1, IF=9.417).<\/strong><\/li>\r\n
          64. Sonsupap, E. Swatsitang, S. Maensiri and K. Wongsaprom*<\/strong>, Synthesis and Characterization of Indium Oxide Nanoparticles Using Indium Nitrate and Polyvinylpyrrolidone (PVP) as Precursors, Chiang Mai J. Sci., 42(3) (2015),<\/strong> 752-760. (Q4, IF=0.523).<\/strong><\/li>\r\n
          65. Laokul*<\/strong>, S. Arthan, S. Maensiri and E. Swatsitang, Magnetic and Optical Properties of CoFe2<\/sub>O4<\/sub> Nanoparticles Synthesized by Reverse Micelle Microemulsion Method, J. Supercond. Nov. Magn., (2015). (Q3, IF=1.675).<\/strong><\/li>\r\n
          66. Wannasen and E. Swatsitang*<\/strong>, Magnetic properties dependence on Fe2+<\/sup>\/Fe3+<\/sup> and oxygen vacancies in SrTi0.95<\/sub>Fe0.05<\/sub>O3<\/sub> nanocrystalline prepared by hydrothermal method, Microelectron. Eng.<\/strong>, 146 (2015)<\/strong>, 92-98. (Q2, IF=2.73).<\/strong><\/li>\r\n
          67. Phokha, E. Swatsitang, and S. Maensiri*<\/strong>, Room-Temperature Ferromagnetism in Pure CeO2<\/sub> Nanoparticles Prepared by a Simple Direct Thermal Decomposition, Electron. Mater. Lett., 11(6) (2015)<\/strong>, 1012-1020. (Q2, IF=3.017).<\/strong><\/li>\r\n
          68. Saensuk, S. Phokha, A. Bootchanont, S. Maensiri and E. Swatsitang*, <\/strong>Fabrication and magnetic properties of NiFe2<\/sub>O4<\/sub> nanofibers obtained by electrospinning, Ceram., 41 (2015), <\/strong>8133-8141. (Q1\/T1, IF=4.527).<\/strong><\/li>\r\n
          69. Karaphun, S. Hunpratub, T. Putjuso and E. Swatsitang*<\/strong>, Characterization and dielectric properties of SrTi1-x<\/sub>Mnx<\/sub>O3<\/sub> ceramics, Jpn J Appl Phys, 54, 06FH09 (2015).<\/strong> (Q2, IF=1.491).<\/strong><\/li>\r\n
          70. Wongpratat, S. Maensiri and E. Swatsitang*<\/strong>, EXAFS study of cations distribution dependence of magnetic properties in Co1-x<\/sub>Znx<\/sub>Fe2<\/sub>O4<\/sub> nanoparticles prepared by hydrothermal method, Microelectron. Eng., 146 (2015)<\/strong>, 68-75. (Q2, IF=2.73).<\/strong><\/li>\r\n
          71. Kotutha, E. Swatsitang, W. Meewassana, and S. Maensiri*<\/strong>, One-pot hydrothermal synthesis, characterization, and electrochemical properties of rGO\/MnFe2<\/sub>O4<\/sub> nanocomposites, Jpn J Appl Phys, 54, 06FH10 (2015). (Q2, IF=1.491).<\/strong><\/li>\r\n
          72. Wongsaprom*, R.A. Bornphotsawatkun*<\/strong> and E. Swatsitang, Synthesis and characterization of tin oxide (SnO2<\/sub>) nanocrystalline powders by a simple modified sol-gel route, Appl. Phys. AAPPL PHYS A-MATER<\/strong>, 114 (2014)<\/strong>, 373\u2013379. (Q2, IF=2.584).<\/strong><\/li>\r\n
          73. Wongpratat, S. Meansiri and E. Swatsitang<\/strong>*, Local structure and magnetic property of Ni1-x<\/sub>Znx<\/sub>Fe2<\/sub>O4<\/sub> (x = 0, 0.25, 0.50, 0.75, 1.00) nanoparticles prepared by hydrothermal method, Microelectron. Eng., 126 (2014)<\/strong>, 19-26. (Q2, IF=2.73).<\/strong><\/li>\r\n
          74. Wiriya, A. Bootchanont, S. Maensiri and E. Swatsitang<\/strong>*, X-ray absorption fine structure analysis of Mn1-x<\/sub>Cox<\/sub>Fe2<\/sub>O4<\/sub> nanoparticles prepared by hydrothermal method, Jpn J Appl Phys, 53, 06JF09 (2014). (Q2, IF=1.491).<\/strong><\/li>\r\n
          75. Wiriya, A. Bootchanont, S. Maensiri and E. Swatsitang<\/strong>*, Magnetic properties of Zn1-x<\/sub>Mnx<\/sub>Fe2<\/sub>O4<\/sub> nanoparticles prepared by hydrothermal method, Microelectron. Eng., 126 (2014),<\/strong> 1-8. (Q2, IF=2.73).<\/strong><\/li>\r\n
          76. Wannasen, S. Hunpratub and E. Swatsitang*<\/strong>, Microstructure and optical properties of La0.5<\/sub>Sr0.5<\/sub>Ti1-x<\/sub>Fex<\/sub>O3<\/sub> nanoparticles prepared by thermal decomposition, Microelectron. Eng., 126 (2014),<\/strong> 31-36. (Q2, IF=2.73).<\/strong><\/li>\r\n
          77. Swatsitang and T. Putjuso<\/strong>*, Dielectric properties of Ni-doped Ba0.5<\/sub>Sr0.5<\/sub>TiO3<\/sub> ceramics prepared with hydrothermal synthesized nanopowders, J. Sol-Gel Sci Technol, (2014). (Q2, IF=2.326).<\/strong><\/li>\r\n
          78. Saensuk, S. Maensiri, A. Bootchanont and E. Swatsitang<\/strong>*, Fabrication and magnetic properties of electrospun Ni1- x<\/sub>Cux<\/sub>Fe2<\/sub>O4<\/sub> nanofibers, Microelectron. Eng., 126 (2014), <\/strong>158-164. (Q2, IF=2.73).<\/strong><\/li>\r\n
          79. Phromviyo, E. Swatsitang and A. Chompoosor*<\/strong>, Effect of a surface stabilizer on the formation of polyoxalate nanoparticles and their release profiles, Vacuum, 107 (2014),<\/strong> 208-212. (Q2, IF=3.627).<\/strong><\/li>\r\n
          80. Noipa, S. Labuayai, E. Swatsitang and S. Maensiri<\/strong>*<\/strong>, Room-temperature ferromagnetism in nanocrystalline Fe-doped NiO powders synthesized by a simple direct thermal decomposition method, Electron. Mater. Lett., 10(1) (2014)<\/strong>, 147-152. (Q2, IF=3.017).<\/strong><\/li>\r\n
          81. Maensiri*<\/strong>, S. Labuayai, P. Laokul, J. Klinkaewnarong and E. Swatsitang, Structure and optical properties of CeO2<\/sub> nanoparticles prepared by using lemongrass plant extract solution, Jpn J Appl Phys, 53, 06JG14 (2014). (Q2, IF=1.491).<\/strong><\/li>\r\n
          82. Karaphun, S. Hunpratub and E. Swatsitang<\/strong>*, Effect of annealing on magnetic properties of Fe-doped SrTiO3<\/sub> nanopowders prepared by hydrothermal method, Microelectron. Eng., 126 (2014),<\/strong> 42-48. <\/strong>(Q2, IF=2.73).<\/strong><\/li>\r\n
          83. Janbutrach, S. Hunpratub and E. Swatsitang*, <\/strong>Ferromagnetism and optical properties of La1\u2212x<\/sub>Alx<\/sub>FeO3<\/sub> nanopowders, Nanoscale Res.<\/strong>Lett<\/strong>., 9 (2014)<\/strong>, 498-504. (Q1, IF=4.703).<\/strong><\/li>\r\n
          84. Wannasen and E. Swatsitang<\/strong>*, Synthesis and characterization of La0.5<\/sub>Sr0.5<\/sub>TiO3<\/sub> nanopaticles prepared by thermal decomposition, Jpn J Appl Phys, 52, 06GG11 (2013). (Q2, IF=1.491).<\/strong><\/li>\r\n
          85. Vangchangyia, T. Yamwong, E. Swatsitang, P. Thongbai*<\/strong> and S. Maensiri, Selectivity of doping ions to effectively improve dielectric and non-ohmic properties of CaCu3<\/sub>Ti4<\/sub>O12<\/sub> ceramics, Ceram., 39 (2013), <\/strong>8133-8139. (Q1\/T1, IF=4.527).<\/strong><\/li>\r\n
          86. Thongbai*<\/strong>, S. Vangchangyia, E. Swatsitang, V. Amornkitbamrung, T. Yamwong and S. Maensiri, Non-Ohmic and dielectric properties of Ba-doped CaCu3<\/sub>Ti4<\/sub>O12<\/sub> ceramics, J. Mater. Sci.: Mater. Electron., 24 (2013), <\/strong>875-883. (Q2, IF=2.478).<\/strong><\/li>\r\n
          87. Swatsitang, A. Niyompan and T. Putjuso*<\/strong>, Giant dielectric, low dielectric loss, and non-ohmic properties of nanocrystalline CaCu3<\/sub>Ti4<\/sub>O12<\/sub>, J. Mater. Sci.: Mater. Electron., (2013)<\/strong>. (Q2, IF=2.478).<\/strong><\/li>\r\n
          88. Swatsitang<\/strong>*, S. Hunpratub and S. Maensiri, Fe-doped La0.5<\/sub>Sr0.5<\/sub>TiO3<\/sub> nanopowders prepared by hydrothermal method, Microelectron. Eng., 108 (2013),<\/strong> 209-212. (Q2, IF=2.73).<\/strong><\/li>\r\n
          89. Srepusharawoot*<\/strong>, E. Swatsitang, V. Amornkitbamrung, U. Pinsook and R. Ahuja, Hydrogen adsorption of Li functionalized Covalent Organic Framework-366: An ab initio study, Int.<\/strong>J.<\/strong>\u00a0Hydrog.<\/strong>\u00a0Energy<\/strong>, 38 (2013)<\/strong>, 14276-14280. (Q1\/T1, IF=7.139).<\/strong><\/li>\r\n
          90. Phumying, S. Labuayai, C. Thomas, V. Amornkitbamrung, E. Swatsitang and S. Maensiri*<\/strong>, Aloe vera plant-extracted solution hydrothermal synthesis and magnetic properties of magnetite (Fe3<\/sub>O4<\/sub>) nanoparticles, Appl. Phys. AAPPL PHYS A-MATER<\/strong>, 111 (2013)<\/strong>, 1187\u20131193. (Q2, IF=2.584).<\/strong><\/li>\r\n
          91. Phumying, S. Labuayai, E. Swatsitang, V. Amornkitbamrung and S. Maensiri*<\/strong>, Nanocrystalline spinel ferrite (MFe2O4, M = Ni, Co, Mn, Mg, Zn) powders prepared by a simple aloe vera plant-extracted solution hydrothermal route, Mater.<\/strong>Res.<\/strong>\u00a0Bull<\/strong>., 48 (2013)<\/strong>, 2060-2065. (Q1, IF=4.641)<\/strong>.<\/li>\r\n
          92. Vangchangyia, E. Swatsitang, P. Thongbai*<\/strong>, S. Pinitsoontorn, T. Yamwong, S. Maensiri, V. Amornkitbamrung and P. Chindaprasirt, Very low loss tangent and high dielectric permittivity in pure-CaCu3<\/sub>Ti4<\/sub>O12<\/sub> ceramics prepared by a modified sol-gel process, J.<\/strong>Am.<\/strong>\u00a0Ceram.<\/strong>\u00a0Soc<\/strong>., 95[5] (2012)<\/strong>, 1497-1500. (Q1, IF=3.784)<\/strong>.<\/li>\r\n
          93. Putjuso, S. Maensiri, S. Hunpratub and E. Swatsitang*, <\/strong>La0.5<\/sub>Sr0.5<\/sub>TiO3<\/sub> nanopowders prepared by the hydrothermal method, Mater.<\/strong>Res.<\/strong>\u00a0Bull<\/strong>., 47 (2012)<\/strong>, 2270-2276. (Q1, IF=4.641)<\/strong>.<\/li>\r\n
          94. Swatsitang<\/strong>*, P. Buppato, S. Hunpratub and S. Maensiri, Synthesis and structure analysis of La0.5<\/sub>Sr0.5<\/sub>TiO3<\/sub> nanoparticles prepared by thermal decomposition method, J.<\/strong>Nanosci.<\/strong>\u00a0Nanotechnol<\/strong>., 11 (2011)<\/strong>, 8826-8830. (Q1, IF=1.28)<\/strong>.<\/li>\r\n
          95. Klinkaewnarong, E. Swatsitang<\/strong>* and S. Maensiri, Synthesis and characterization of high purity hydroxyapatite nanorods by hydrothermal technique, J. Nanosci. Nanotechnol., 11 (2011)<\/strong>, 8831-8834. (Q1, IF=1.28).<\/strong><\/li>\r\n
          96. Ponhan, E. Swatsitang and S. Maensiri*<\/strong>, Fabrication and magnetic properties of electrospun zinc ferrite (ZnFe2<\/sub>O4<\/sub>) nanofibers, Mater.<\/strong>Sci.<\/strong>\u00a0Technol<\/strong>., 26[11] (2010)<\/strong>, 1298-1303. (Q2, IF=1.85).<\/strong><\/li>\r\n
          97. Klinkaewnarong, E. Swatsitang, C. Masingboon, S. Seraphin and S. Maensiri*<\/strong>, Synthesis and characterization of nanocrystalline HAp powders prepared by using aloe vera plant extracted solution, Curr.<\/strong>Appl.<\/strong>\u00a0Phys.<\/strong>, 10 (2010)<\/strong>, 521\u2013525. (Q2, IF=2.48).<\/strong><\/li>\r\n
          98. Phoka, P. Laokul, E. Swatsitang, V. Promarak, S. Seraphin and S. Maensiri*<\/strong>, Synthesis, structural and optical properties of CeO2<\/sub> nanoparticles synthesized by a simple polyvinyl pyrrolidone (PVP) solution route, Mater.<\/strong>Chem.<\/strong>\u00a0Phys<\/strong>., 115 (2009)<\/strong>, 423\u2013428. (Q2, IF=4.094).<\/strong><\/li>\r\n
          99. Klinkaewnarong, E. Swatsitang and S. Maensiri*<\/strong>, Nanocrystalline hydroxyapatite powders by a chitosan-polymer complex solution route: Synthesis and characterization, Solid State Sci.<\/strong>, 11 (2009)<\/strong>, 1023\u20131027. (Q2, IF=3.059).<\/strong><\/li>\r\n
          100. Jarernboon, S. Pimanpang*<\/strong>, S. Maensiri, E. Swatsitang and V. Amornkitbamrung, Effects of multiwall carbon nanotubes in reducing microcrack formation on electrophoretically deposited TiO2<\/sub> film, J. Alloys Compd., 476 (2009), <\/strong>840\u2013846. (Q1\/T1, IF=6.371)<\/strong>.<\/li>\r\n
          101. Jarernboon, S. Pimanpang*<\/strong>, S. Maensiri, E. Swatsitang and V. Amornkitbamrung, Optimization of titanium dioxide film prepared by electrophoretic deposition for dye-sensitized solar cell application, Thin Solid Films<\/strong>, 517 (2009)<\/strong>, 4663\u20134667. (Q1, IF=2.183)<\/strong>.<\/li>\r\n
          102. Wongsaprom, E. Swatsitang, S. Maensiri, S. Srijaranai and S. Seraphin, Room temperature ferromagnetism in Co-doped La0.5<\/sub>Sr0.5<\/sub>TiO3-<\/sub>\u03b4<\/sub> nanoparticles, Appl.<\/strong>Phys.<\/strong>\u00a0Lett.<\/strong>, 90<\/strong> (2007)<\/strong>, 162506. (Q1, IF=3.971)<\/strong>.<\/li>\r\n
          103. Maensiri*<\/strong>, K. Wongsaprom, E. Swatsitang and S. Seraphin, Fe-doped La0.5<\/sub>Sr0.5<\/sub>TiO3-<\/sub>\u03b4<\/sub> nanoparticles: A diluted magnetic oxide system, J.<\/strong>Appl.<\/strong>\u00a0Phys.<\/strong>, 102<\/strong> (2007)<\/strong>, 076110. (Q1, IF=2.546).<\/strong><\/li>\r\n<\/ol>\r\n

            [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”\u0e2a\u0e34\u0e17\u0e18\u0e34\u0e1a\u0e31\u0e15\u0e23\/\u0e2d\u0e19\u0e38\u0e2a\u0e34\u0e17\u0e18\u0e34\u0e1a\u0e31\u0e15\u0e23” tab_id=”1677237435786-5a92a8e3-153c”][vc_column_text]<\/p>\r\n

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            1. \u0e02\u0e31\u0e49\u0e27\u0e44\u0e1f\u0e1f\u0e49\u0e32\u0e41\u0e04\u0e42\u0e17\u0e14\u0e17\u0e35\u0e48\u0e21\u0e35\u0e2a\u0e48\u0e27\u0e19\u0e1c\u0e2a\u0e21\u0e02\u0e2d\u0e07\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e04\u0e32\u0e23\u0e4c\u0e1a\u0e2d\u0e19\u0e08\u0e32\u0e01\u0e40\u0e2a\u0e49\u0e19\u0e43\u0e22\u0e21\u0e30\u0e1e\u0e23\u0e49\u0e32\u0e27\u0e2a\u0e33\u0e2b\u0e23\u0e31\u0e1a\u0e15\u0e31\u0e27\u0e40\u0e01\u0e47\u0e1a\u0e1b\u0e23\u0e30\u0e08\u0e38\u0e22\u0e27\u0e14\u0e22\u0e34\u0e48\u0e07. \u0e04\u0e33\u0e02\u0e2d\u0e40\u0e25\u0e02\u0e17\u0e35\u0e48 2303000223 \u0e27\u0e31\u0e19\u0e17\u0e35\u0e48\u0e23\u0e31\u0e1a\u0e04\u0e33\u0e02\u0e2d 27 \u0e21\u0e01\u0e23\u0e32\u0e04\u0e21 2566<\/li>\r\n<\/ol>\r\n
                \r\n
              1. \u0e02\u0e31\u0e49\u0e27\u0e44\u0e1f\u0e1f\u0e49\u0e32\u0e41\u0e2d\u0e42\u0e19\u0e14\u0e17\u0e35\u0e48\u0e21\u0e35\u0e2a\u0e48\u0e27\u0e19\u0e1c\u0e2a\u0e21\u0e02\u0e2d\u0e07\u0e27\u0e31\u0e2a\u0e14\u0e38\u0e04\u0e32\u0e23\u0e4c\u0e1a\u0e2d\u0e19\u0e08\u0e32\u0e01\u0e40\u0e2a\u0e49\u0e19\u0e43\u0e22\u0e21\u0e30\u0e1e\u0e23\u0e49\u0e32\u0e27\u0e2a\u0e33\u0e2b\u0e23\u0e31\u0e1a\u0e15\u0e31\u0e27\u0e40\u0e01\u0e47\u0e1a\u0e1b\u0e23\u0e30\u0e08\u0e38\u0e22\u0e27\u0e14\u0e22\u0e34\u0e48\u0e07. \u0e04\u0e33\u0e02\u0e2d\u0e40\u0e25\u0e02\u0e17\u0e35\u0e48 2303000227 \u0e27\u0e31\u0e19\u0e17\u0e35\u0e48\u0e23\u0e31\u0e1a\u0e04\u0e33\u0e02\u0e2d 30 \u0e21\u0e01\u0e23\u0e32\u0e04\u0e21 2566<\/li>\r\n<\/ol>\r\n

                [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”\u0e2b\u0e19\u0e31\u0e07\u0e2a\u0e37\u0e2d” tab_id=”1675439632514-1bf8c050-3106″][vc_column_text animation=”bounceInDown”]<\/p>\r\n\r\n

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                1. \r\n
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                  1. \u0e40\u0e2d\u0e01\u0e1e\u0e23\u0e23\u0e13 \u0e2a\u0e27\u0e31\u0e2a\u0e14\u0e34\u0e4c\u0e0b\u0e34\u0e15\u0e31\u0e07 (2540), \u0e01\u0e25\u0e28\u0e32\u0e2a\u0e15\u0e23\u0e4c\u0e04\u0e27\u0e2d\u0e19\u0e15\u0e31\u0e21 1, \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, 320 \u0e2b\u0e19\u0e49\u0e32<\/li>\r\n\r\n\r\n\r\n
                  2. \u0e40\u0e2d\u0e01\u0e1e\u0e23\u0e23\u0e13 \u0e2a\u0e27\u0e31\u0e2a\u0e14\u0e34\u0e4c\u0e0b\u0e34\u0e15\u0e31\u0e07 (2552), \u0e1f\u0e34\u0e2a\u0e34\u0e01\u0e2a\u0e4c\u0e22\u0e38\u0e04\u0e43\u0e2b\u0e21\u0e48, \u0e17\u0e38\u0e19\u0e1c\u0e25\u0e34\u0e15\u0e15\u0e33\u0e23\u0e32\u0e21\u0e2b\u0e32\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22\u0e02\u0e2d\u0e19\u0e41\u0e01\u0e48\u0e19, 495 \u0e2b\u0e19\u0e49\u0e32<\/li>\r\n\r\n\r\n\r\n
                  3. \u0e40\u0e2d\u0e01\u0e1e\u0e23\u0e23\u0e13 \u0e2a\u0e27\u0e31\u0e2a\u0e14\u0e34\u0e4c\u0e0b\u0e34\u0e15\u0e31\u0e07 (2558), \u0e01\u0e25\u0e28\u0e32\u0e2a\u0e15\u0e23\u0e4c\u0e04\u0e27\u0e2d\u0e19\u0e15\u0e31\u0e21 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, 175 \u0e2b\u0e19\u0e49\u0e32<\/li>\r\n\r\n\r\n\r\n
                  4. \u0e40\u0e2d\u0e01\u0e1e\u0e23\u0e23\u0e13 \u0e2a\u0e27\u0e31\u0e2a\u0e14\u0e34\u0e4c\u0e0b\u0e34\u0e15\u0e31\u0e07 (2561), \u0e42\u0e25\u0e2b\u0e30\u0e2d\u0e2d\u0e01\u0e44\u0e0b\u0e14\u0e4c, \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, 260 \u0e2b\u0e19\u0e49\u0e32<\/li>\r\n<\/ol>\r\n<\/li>\r\n<\/ol>\r\n

                    [\/vc_column_text][\/vc_tta_section][vc_tta_section title=”\u0e23\u0e32\u0e07\u0e27\u0e31\u0e25” tab_id=”1675439711958-dc140942-5d21″][vc_column_text animation=”bounceInDown”]<\/p>\r\n\r\n

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                        \r\n
                      1. \u0e23\u0e32\u0e07\u0e27\u0e31\u0e25\u0e1e\u0e34\u0e40\u0e28\u0e29\u0e1c\u0e25\u0e07\u0e32\u0e19\u0e17\u0e35\u0e48\u0e21\u0e35\u0e28\u0e31\u0e01\u0e22\u0e20\u0e32\u0e1e\u0e14\u0e49\u0e32\u0e19\u0e19\u0e27\u0e31\u0e15\u0e01\u0e23\u0e23\u0e21\u0e19\u0e32\u0e42\u0e19\u0e0b\u0e34\u0e25\u0e34\u0e01\u0e2d\u0e19\u0e2a\u0e33\u0e2b\u0e23\u0e31\u0e1a\u0e43\u0e0a\u0e49\u0e40\u0e1b\u0e47\u0e19\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<\/li>\r\n\r\n\r\n\r\n
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                      5. \u0e23\u0e32\u0e07\u0e27\u0e31\u0e25\u0e04\u0e19\u0e14\u0e35\u0e28\u0e23\u0e35\u0e08\u0e33\u0e1b\u0e32\u0e14\u0e49\u0e32\u0e19\u0e01\u0e32\u0e23\u0e27\u0e34\u0e08\u0e31\u0e22 \u0e1e.\u0e28. 2560 \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\r\n\r\n\r\n
                      6. \u0e23\u0e32\u0e07\u0e27\u0e31\u0e25\u0e40\u0e0a\u0e34\u0e14\u0e0a\u0e39\u0e40\u0e01\u0e35\u0e22\u0e23\u0e15\u0e34\u0e19\u0e31\u0e01\u0e27\u0e34\u0e08\u0e31\u0e22\u0e23\u0e30\u0e14\u0e31\u0e1a\u0e17\u0e2d\u0e07 \u0e1e.\u0e28. 2560 \u0e21\u0e2b\u0e32\u0e27\u0e34\u0e17\u0e22\u0e32\u0e25\u0e31\u0e22\u0e02\u0e2d\u0e19\u0e41\u0e01\u0e48\u0e19<\/li>\r\n
                      7. \u0e28\u0e34\u0e29\u0e22\u0e4c\u0e40\u0e01\u0e48\u0e32\u0e41\u0e2b\u0e48\u0e07\u0e04\u0e27\u0e32\u0e21\u0e20\u0e32\u0e04\u0e20\u0e39\u0e21\u0e34\u0e43\u0e08\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 \u0e1b\u0e35 \u0e1e.\u0e28. 2566 \u0e1b\u0e23\u0e30\u0e08\u0e33\u0e2a\u0e32\u0e02\u0e32\u0e27\u0e34\u0e0a\u0e32\u0e1f\u0e34\u0e2a\u0e34\u0e01\u0e2a\u0e4c<\/li>\r\n<\/ol>\r\n<\/li>\r\n<\/ol>\r\n\r\n

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