EDUCATIONAL BACKGROUND

2005-2007         PhD (Materials Science)            

Department of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai,Thailand

2003-2004         MSc (Materials Science)           

Department of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai,Thailand

1999-2002         BSc (Physics)

                          Department of Physics, Faculty of Science, Srinakarinwirot Prasanmitt, Bangkok, Thailand

FIELDS OF SPECIALLIZATION

- Chemical and Physical Process

- Nanomaterials, Nanoscience and Nanotechnology

- Electrical and Optical Fields

- Chemical Sensor and Fabrications

 AWARDS 

2004-2008                     The Development of Young Academic Staff Scholarship from the Commission on Higher Education, Ministry of Education, Thailand

March 2008                   The Reviewer of the Materials Science and Engineering B journal in Elsevier Publisher in titled  “Simple synthesis and gas-sensing properties of undoped and Nd₂O₃-doped ZnO nanorod”

Octocer 2008                 Received the certification of “Young Scientist Award 2008” from The 6^th Asian Meeting on Electroceramics (AMEC-6) conference, 22-24 October, 2008, International Exchange Hall of NIMS, Tsukuba, Japan (2008)

 PUBLICATIONS (2016-present), Scopus Author ID : 16052921800

1. Bunpang, K., Wisitsoraat, A., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2019, "Effects of reduced graphene oxide loading on gas-sensing characteristics of flame-made Bi2WO6 nanoparticles", Applied Surface Science, vol. 496.

2. Bunpang, K., Wisitsoraat, A., Tuantranont, A., Singkammo, S., Phanichphant, S. & Liewhiran, C. 2019, "Highly selective and sensitive CH4 gas sensors based on flame-spray-made Cr-doped SnO2 particulate films", Sensors and Actuators, B: Chemical, vol. 291, pp. 177-191.

3. Inyawilert, K., Channei, D., Tamaekong, N., Liewhiran, C., Wisitsoraat, A., Tuantranont, A. & Phanichphant, S. 2016, "Pt-doped In2O3 nanoparticles prepared by flame spray pyrolysis for NO2 sensing", Journal of Nanoparticle Research, vol. 18, no. 2, pp. 1-17.

4. Inyawilert, K., Wisitsoraat, A., Liewhiran, C., Tuantranont, A. & Phanichphant, S. 2019, "H 2 gas sensor based on PdO x -doped In 2 O 3 nanoparticles synthesized by flame spray pyrolysis", Applied Surface Science, vol. 475, pp. 191-203.

5. Inyawilert, K., Wisitsoraat, A., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2017, "Ultra-sensitive and highly selective H2 sensors based on FSP-made Rh-substituted SnO2 sensing films", Sensors and Actuators, B: Chemical, vol. 240, pp. 1141-1152.

6. Kabcum, S., Channei, D., Tuantranont, A., Wisitsoraat, A., Liewhiran, C. & Phanichphant, S. 2018, "Ethanol sensors fabricated from PdO/WO3 nanorods", Chiang Mai Journal of Science, vol. 45, no. 4, pp. 1827-1834.

7. Kabcum, S., Channei, D., Tuantranont, A., Wisitsoraat, A., Liewhiran, C. & Phanichphant, S. 2016, "Ultra-responsive hydrogen gas sensors based on PdO nanoparticle-decorated WO3 nanorods synthesized by precipitation and impregnation methods", Sensors and Actuators, B: Chemical, vol. 226, pp. 76-89.

8. Kabcum, S., Kotchasak, N., Channei, D., Tuantranont, A., Wisitsoraat, A., Phanichphant, S. & Liewhiran, C. 2017, "Highly sensitive and selective NO2 sensor based on Au-impregnated WO3 nanorods", Sensors and Actuators, B: Chemical, vol. 252, pp. 523-536.

9. Kabcum, S., Tammanoon, N., Wisitsoraat, A., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2016, "Role of molybdenum substitutional dopants on H2S-sensing enhancement of flame-spray-made SnO2 nanoparticulate thick films", Sensors and Actuators, B: Chemical, vol. 235, pp. 678-690.

10. Kaewsiri, D., Inyawilert, K., Wisitsoraat, A., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2020, "Flame-spray-made PtOx-functionalized Zn2SnO4 spinel nanostructures for conductometric H2 detection", Sensors and Actuators, B: Chemical, vol. 316.

11. Kaewsiri, D., Inyawilert, K., Wisitsoraat, A., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2020, "Single-Nozzle Flame Synthesis of Spinel ZnSnO Nanoparticles for Selective Detection of Formic Acid", IEEE Sensors Journal, vol. 20, no. 12, pp. 6256-6262.

12. Khamfoo, K., Inyawilert, K., Wisitsoraat, A., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2020, "Formaldehyde sensor based on FSP-made AgOx-doped SnO2 nanoparticulate sensing films", Sensors and Actuators, B: Chemical, vol. 309.

13. Kotchasak, N., Inyawilert, K., Wisitsoraat, A., Tuantranont, A., Phanichphant, S., Channei, D., Yordsri, V. & Liewhiran, C. 2020, "Chemophysical acetylene-sensing mechanisms of Sb2O3/NaWO4-doped WO3heterointerfaces", Physical Chemistry Chemical Physics, vol. 22, no. 36, pp. 20482-20498.

14. Kotchasak, N., Wisitsoraat, A., Tuantranont, A., Phanichphant, S., Yordsri, V. & Liewhiran, C. 2018, "Highly sensitive and selective detection of ethanol vapor using flame-spray-made CeOx-doped SnO2 nanoparticulate thick films", Sensors and Actuators, B: Chemical, vol. 255, pp. 8-21.

15. Moschogiannaki, M., Zouridi, L., Sukunta, J., Phanichphant, S., Gagaoudakis, E., Liewhiran, C., Kiriakidis, G. & Binas, V. 2020, "High performance hydrogen gas sensors based on PdO-decorated p-type CoV2O6 nanoparticles", Sensors and Actuators, B: Chemical, vol. 324.

16. Punginsang, M., Wisitsoraat, A., Sriprachuabwong, C., Phokharatkul, D., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2017, "Roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made SnO 2 nanoparticles−electrolytically exfoliated graphene interfaces", Applied Surface Science, vol. 425, pp. 351-366.

17. Punginsang, M., Wisitsoraat, A., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2019, "Ultrafine Bi2WO6 nanoparticles prepared by flame spray pyrolysis for selective acetone gas-sensing", Materials Science in Semiconductor Processing, vol. 90, pp. 263-275.

18. Samerjai, T., Channei, D., Khanta, C., Inyawilert, K., Liewhiran, C., Wisitsoraat, A., Phokharatkul, D. & Phanichphant, S. 2016, "Flame-spray-made Zn-In-O alloyed nanoparticles for NO2 gas sensing", Journal of Alloys and Compounds, vol. 680, pp. 711-721.

19. Singkammo, S., Wisitsoraat, A., Jaruwongrangsee, K., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2018, "Roles of catalytic PtO 2 nanoparticles on nitric oxide sensing mechanisms of flame-made SnO 2 nanoparticles", Applied Surface Science, vol. 458, pp. 281-292.

20. Singkammo, S., Wisitsoraat, A., Tuantranont, A., Phanichphant, S., Yodsri, V. & Liewhiran, C. 2018, "Catalytic roles of Sm 2 O 3 dopants on ethylene oxide sensing mechanisms of flame-made SnO 2 nanoparticles", Applied Surface Science, vol. 454, pp. 30-45.

21. Sukee, A., Alharbi, A.A., Staerz, A., Wisitsoraat, A., Liewhiran, C., Weimar, U. & Barsan, N. 2020, "Effect of AgO loading on flame-made LaFeO3 p-type semiconductor nanoparticles to acetylene sensing", Sensors and Actuators, B: Chemical, vol. 312.

22. Sukunta, J., Wisitsoraat, A., Tuantranont, A., Jaruwongrungsee, K., Phanichphant, S. & Liewhiran, C. 2020, "Mechanistic roles of substitutional Fe dopants on catalytic acetylene-sensing process of flame-made SnO2 nanoparticles", Arabian Journal of Chemistry, vol. 13, no. 1, pp. 3043-3059.

23. Sukunta, J., Wisitsoraat, A., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2018, "WO 3 nanotubes−SnO 2 nanoparticles heterointerfaces for ultrasensitive and selective NO 2 detections", Applied Surface Science, vol. 458, pp. 319-332.

24. Sukunta, J., Wisitsoraat, A., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2017, "Highly-sensitive H2S sensors based on flame-made V-substituted SnO2 sensing films", Sensors and Actuators, B: Chemical, vol. 242, pp. 1095-1107.

25. Tamaekong, N., Liewhiran, C., Wisitsoraat, A. & Phanichphant, S. 2017, "Core/shell of p-CuxO/n-ZnO nanowire arrays: Synthesis and characterization", Nanoscience and Nanotechnology Letters, vol. 9, no. 7, pp. 1052-1056.

26. Tamaekong, N., Phanichphant, S., Wisitsoraat, A. & Liewhiran, C. 2018, Core/shell of p-cuxo/n-zno nanowire arrays for h2s gas sensor.

27. Tammanoon, N., Iwamoto, T., Ueda, T., Hyodo, T., Wisitsoraat, A., Liewhiran, C. & Shimizu, Y. 2020, "Synergistic Effects of PdO x-CuO xLoadings on Methyl Mercaptan Sensing of Porous WO3Microspheres Prepared by Ultrasonic Spray Pyrolysis", ACS Applied Materials and Interfaces, vol. 12, no. 37, pp. 41728-41739.

28. Tammanoon, N., Wisitsoraat, A., Phokharatkul, D., Tuantranont, A., Phanichphant, S., Yordsri, V. & Liewhiran, C. 2018, "Highly sensitive acetone sensors based on flame-spray-made La2O3-doped SnO2 nanoparticulate thick films", Sensors and Actuators, B: Chemical, vol. 262, pp. 245-262.

29. Tammanoon, N., Wisitsoraat, A., Sriprachuabwong, C., Phokharatkul, D., Tuantranont, A., Phanichphant, S. & Liewhiran, C. 2018, "Highly-sensitive and selective nitric oxide sensor based on electrolytically exfoliated graphene/flamespay-made SnO2 nanocomposite films", Chiang Mai Journal of Science, vol. 45, no. 4, pp. 1843-1854.

30. Wisitsoraat, A., Mensing, J.P., Karuwan, C., Sriprachuabwong, C., Jaruwongrungsee, K., Phokharatkul, D., Daniels, T.M., Liewhiran, C. & Tuantranont, A. 2017, "Printed organo-functionalized graphene for biosensing applications", Biosensors and Bioelectronics, vol. 87, pp. 7-17.

 RESEARCH GRANTS   

Research Topic            Characterization of High Specific Surface Area of Ru/SnO₂ Nanoparticles Synthesized by Flame Spray Pyrolysis for Use as Gas Sensor

Sources of Funding     Network for the Excellencein Functional Nanomaterials (NEFN)

Time Duration              1 Years (October 2009 – September 2010 )

Budget                          80,000 baht

Status of Participation  Principal Investigator

Research Topic            The Processing of High Purity SnO₂ Nanoparticles by Flame Spray Pyrolysis for Use as the High Sensitive Sensor for Toxic and Flammable Gases

Sources of Funding     Chiang Mai University

Time Duration               1 Years (January 2010 – December 2010 )

Budget                           100,000 baht

Status of Participation  Principal Investigator

Research Topic            Processing of High Specific Surface Area of Pure and Noble Metals (Au, Pd, Pt, Ru)-doped SnO₂ Nanoparticles by Flame Spray Pyrolysis for Use as the Gas Sensors for Environmental Monitoring

Sources of Funding     Research Grant for New Scholar (Co-funded by TRF and CHE)

Time Duration               2 Years (January 2010 – December 2011 )

Budget                           480,000 baht

Status of Participation  Principal Investigator

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