ISI Publications


-Dai Cao Truong, Somporn Thaowonkaew, Pennapa Muthitamongkol, Mati Horprathum, Manish Kumar, Thu Bao Nguyen Le, Anh Tuan Thanh Pham, Tosawat Seetawan, Athorn Vora-ud, Thang Bach Phan. (2022) “Relaxation of residual stress-controlled thermopower factor in transparent-flexible Ti-doped ZnO thin films”, Ceramics International 48(2), pp. 2605–2613. (Impact factor: 4.527, Q1)

-Athorn Vora-ud, Kongphope Chaarmart, Wassana Kasemsin, Sarawoot Boonkirdram, Tosawat Seetawan. (2022) “Transparent thermoelectric properties of copper iodide thin films”, Physica B: Condensed Matter 625, p. 413527. (Impact factor: 2.436, Q2)

-Wanatchaporn Namhongsa, Tosawat Seetawan. (2022) “High electrical power designing the horizontal shaped of bulk Ca3Co4O9/CaMnO3”, Physica B: Condensed Matter 636, p.413865. (Impact factor: 2.436, Q2)

-Wanatchaporn Namhongsa, Tosawat Seetawan. (2022) “Enhanced dimensionless figure-of-merit of Ca3Co4O9 by nano-sized precursor”, Japanese Journal of Applied Physics 61(3), p. 035501 (Impact factor: 1.480, Q2)

-P. Yamchumporn, K. Boonin, K. Singsoog, T. Seetawan, J. Kaewkhao. (2022) “Effect of CuO on Electrical Property, Seebeck Coefficient and Power Factor of CuGd2O4”, Integrated Ferroelectrics 224(1), pp.84-89 (Impact factor: 0.836, Q3)

-P. Yamchumporn, K. Boonin, K. Singsoog, T. Seetawan, J. Kaewkho (2022) “Study Ratio Between the CuO and Eu2O3 Concentrations on Electrical Resistivity, Seebeck Coefficient and Power Factor of CuEu2O4” Integrated Ferroelectrics 222(1), pp.38-43. (Impact factor: 0.836, Q3)

-P. Pilasuta, S. Paengson, K. Singsoog, T. Seetawan. (2022) “Role of Al Substitution in the Enhancement of High-Temperature Thermoelectric Properties of ZnO Compound”, Integrated Ferroelectrics 222(1), pp. 28-37. (Impact factor: 0.836, Q3)


– Soe Ko Ko Aung, Anuja Vijayan, Tosawat Seetawan, Gerrit Boschloo. (2021) “Improved Efficiency of Perovskite Solar Cells with Low-Temperature-Processed Carbon by Introduction of a Doping-Free Polymeric Hole Conductor” Solar RRL 2021, p. 2100773 (Impact factor: 8.582, Q1)

– Somporn Thaowonkaew, Manish Kumar, Athorn Vora-ud. (2021) “Thermoelectric Properties of Ag-doped Sb2Te3 Thin Films onto SiO2 and Polyimide Substrates within the Rapid Thermal Annealing”, Journal of Electronic Materials 50(5), pp. 2669-2673. (Impact factor: 1.774, Q2)

– Wattanasarn, H., Hemadhulin, O., Ngennam, T., Saenklan, S. (2021) “Enhanced Piezoelectric Properties of Pb0.976K0.012Bi0.012[(Zr0.53 Ti0.47)0.99 Nb0.01]O3 Ceramic Tape Casting by Three Step Sintering” Integrated Ferroelectrics. 214(1), pp. 158–165. (Impact factor: 0.836, Q3)

– Kaeopisan, A., Wattanasarn, H. (2021) “Piezoelectric PVDF/CNT Flexible Applied on Motorcycle” Integrated Ferroelectrics. 214(1), pp. 166–172. (Impact factor: 0.836, Q3)

– Photankham, W., Wattanasarn, H., Hemadhulin, O., …Namthaisong, A., Sansupaen, S. (2021) “Ferroelectric Properties of (1-x)Ba(Zr0.2Ti0.8)O3-xKNbO3 Ceramics” Integrated Ferroelectrics. 214(1), pp. 173–180. (Impact factor: 0.836, Q3)

– Watsana Suwannasri, Romteera Chueachot, Tosawat Seetawan, Ronariddh Nakhowong, (2021) “Significant enhancement of the power factor in Ca3Co4O9 by incorporating Cu2Se”, Journal of Alloys and Compounds. 863: 158749. (Impact factor: 4.65, Q1)


– Wilawan Kumharn, Serm Janjai, Hitoshi Irie, Oradee Pilahome, (2020) “Aerosol size distribution using Thailand ground-based instruments and climate variables”, Theoretical and Applied Climatology (2020). (Impact factor: 2.88, Q2)
– Athorn Vora-ud, Somporn Thaowonkaew, Jessada Khajonrit, Kunchit Singsoog, Pennapa Muthitamongkol, Chanunthorn Chananonnawathorn, Narong Chanlek, Mati Horprathum, Sunti Maensiri, Tosawat Seetawan, (2020) “Rapid thermal annealing induced the c-axis (00 l) preferred orientation and the p-type thermoelectric properties of Bi-Sb-Te thin films”, Thin Solid Films, 706: 138094-5. (Impact factor: 1.888, Q2)
– Meena Rittiruam, Allan Abraham Padama, Athorn Vora-ud, Anucha Yangthaisong, Tosawat Seetawan, Wilson Agerico Diño, (2020) “Dilute Concentrations of Sb (Bi) Dopants in Sn-site Enhance the Thermoelectric Properties of TiNiSn Half-Heusler Alloys: A First-Principles Study”, Japanese Journal of Applied Physics, 59, 035003-7. (Impact factor: 1.471, Q2)
– Natchanun Prainetr, Athorn Vora-ud, Somporn Thaowonkaew, Mati Horprathum, Pennapa Muthitamongkol, and Tosawat Seetawan, (2020) “Effect of Substrates on Thermoelectric Properties of Ag-Sb-Te Thin Films within the Temperature Annealing”, Physica B: Physics of Condensed Matter, 582, 411977-5. (Impact factor: 1.874, Q2)
– Natchanun Prainetr, Athorn Vora-Ud, Mati Horprathum, Pennapa Muthitamongkol, Somporn Thaowonkaew, Theerapong Santhaveesuk, Thang Bach Phan and Tosawat seetawan,(2020) “Transfer of P-type to N-type Thermoelectric Properties of Ag-Sb-Te Thin Film Through Temperature Annealing and Its Electrical Power Generation”, Journal of ELECTRONIC MATERIALS, 49, 572-577. (Impact Factor: 1.566, Q2)

– Athorn Vora-ud, Tosawat Seetawan and Manish Kumar,(2019) Experimental and theoretical study of thermoelectric properties of rhombohedral GeSb5Te10 thin films, Materials Science & Engineering B, 250, 114439-43. (Impact Factor: 3.507, Q1)
– Hassakorn Wattanasarn*, Ronnachai Aintharasri, Thawatchai Ngennam, Wattana Photankham, Bralee Chayasombat, Chanchana Thanachayanont, Liang Lin, (2019) “Microstructure and ferroelectric properties under various temperatures of (1 – x)Pb(Zr0.52Ti0.48)O3 -xCa3Co4O9 composite materials”, Journal of Alloys and Compounds, 806, 187-194. (Impact Factor: 4.175, Q1)
– Kunchit Singsooga, Tosawat Seetawan, (2019) “Effecting the thermoelectric properties of p-MnSi1.75 and n-Mg1.98Ag0.02Si module on power generation”, Physica B: Condensed Matter, 566, 1–5. (Impact Factor: 1.453, Q2)
– Thanongsak Phochai, Romteera Chueachot, Kunchit Singsoog, Tosawat Seetawan, Ronariddh Nakhowong, (2019) “Enhanced thermoelectric power factor of Na1.2Co1.8Ag0.2O4 with reduced graphene oxide synthesized by the polymerized complex method and solid-state reaction”, Materials Letters, 249 1-4. (Impact Factor: 2.687, Q1)
– Meena Rittiruama, Anucha Yangthaisong, Tosawat Seetawan,(2019) “Reduced lattice thermal conductivity of Ti-site substituted transition metals Ti1-XTMXNiSn: A quasi-harmonic Debye model study”, Chinese Journal of Physics, 57, 393–402. (Impact Factor: 1.051, Q2)
– Athorn Vora-ud, Mati Horprathum, Manish Kumar, Pennapa Muthitamongkol, Chanunthorn Chananonnawathorn, Bunpot Saekow, Intira Nualkham, Somporn Thaowonkaew, Chanchana Thanachayanont, Tosawat Seetawan, (2019) “Effect of Ag mixing in thermoelectric Ge2Sb2Te5 thin films”, Materials Letters, 234, 229–232. (Impact Factor: 2.687, Q1)
– Prakrong Plianaeka, Warunee Bureemata, Manthana Sittkankaewa, Matthana Thammajinda, Orapan Hemadhulin and Hassakorn Wattanasarn, (2019) “Sintering process for tape casting of piezoelectric Ceramics”. Ferroelectrics, 552:1, 132-139. (Impact Factor: 0.697, Q3)

– Hassakorn Wattanasarn*, Wattana Photankham, Jukrit Kongpimai, Chanchana Thanachayanont and Rattikorn Yimnirun, (2018) “Effect of ZnO addition on ferroelectric properties of 0.94Pb(Fe1/2 Nb1/2)O3-0.06PbTiO3 and 0.9Pb(Fe1/2 Nb1/2)O3-0.1PbTiO3 ceramics”. Integrated Ferroelectrics, 187(1), 33-44. (Impact Factor: 0.457, Q3)
– Athorn Vora-ud, Manish Kumar, Su bong Jin, Mati Horprathum, Pennapa Muthitamongkol, Somporn Thaowonkaew, Watchara Chao-moo, Chancana Thanachayanont, Tosawat Seetawan, Phan Bach Thang and Jeon Geon Han, (2018) “Microstructural Control by Substrate Heating in Pulse-DC Sputtering Induced Thermoelectric Ge2Sb2Te5 Thin Films”, Journal of Alloys and Compound, 763, 430–435. (Impact factor: 3.77, Q1)
– Meena Rittiruama, Anucha Yangthaisong, Tosawat Seetawan,(2018) “Enhancing the Thermoelectric Performance of Self-Defect TiNiSn: A First-Principles Calculation”, Journal of Electronic Materials, 47, 7456–7462 (Impact Factor: 1.641, Q2)
– Meena Rittiruama, Anucha Yangthaisong, Tosawat Seetawan,(2018) “Enhancing the thermoelectric properties of TiNiSn by transition metals co-doped on the Ti-site of Ti0.5TMI0.25TMII0.25NiSn: A first-principles study” Journal of Applied Physics, 124, 175101. (Impact Factor: 2.176, Q2)