บทความวิจัยที่ตีพิมพ์ในวารสารระดับนานาชาติ (International Journal) ในฐานะ First หรือ Corresponding author

1. Pitiphattharabun, S., Auewattanapun, K., Htet, T.L., Thu, M. M., Panomsuwan, G., Techapiesancharoenkij, G., Ohta, J., Jongprateep O., “Reduced Graphene Oxide/Zinc Oxidecomposite as an Electrochemicalsensor for Acetylcholine Detection.” Scientific Reports, 2024,14, 14224
2. Asava-arunotai, M., Htet, T.L., Bansiddhi, A., Lertworasirikul, A., Surawathanawises, K., Muangnapoh, T., Kandasamy, B., Kidkhunthod, P., Panomsuwan, G., Jongprateep O., “3D-Printed Sr-Doped TiO₂ / Biowaste / Polymeric Structures for Mitigating Dye Contamination In Water,” Materialia, 36, 2024, 102139,
3. Jongprateep, O., Lertapiwong, N., Chanyapoon, P., Lin Htet, T., Asavaarunotai, M., Bansiddhi, A., Lertworasirikul, A., Fabrication of 3D Printed Hydroxyapatite/Polymeric Bone Scaffold. Polymer-Plastics Technology and Materials, 2024, 1–14.
4. Bansiddhi, A., Panomsuwan, G., Hussakan, C., Htet, T., Kandasamy, B., Janbooranapinij, K. , Choophun, N. , Techapiesancharoenkij, T. , Pant, H. , Ang, W., Jongprateep, O., “Ecofriendly 3D Printed TiO₂/SiO₂/Polymer Scaffolds for Dye Removal.” Topics in Catalysis, 2023, 66, p. 1662-1673
5. Chandeng, L., Saphongxay, K., Lertworasirikul, A., Tuakta, C., Kwonpongsagoon, S., Jongprateep, O., “Using Biowastes and Nonmetallic Fraction from Printed Circuit Board Waste to Fabricate Ecofriendly Lightweight Cement Blocks.” Journal of Materials in Civil Engineering, 2023, 35, 04022371
6. Pitiphattharabun, S., Auewattanapun, K., Sato, N.; Janbooranapinij, K., Techapiesancharoenkij, R., Panomsuwan, G.; Ohta, J.; Jongprateep, O., “Fe-doped CuO/MWCNT as a Sensing Material for Electrochemical Detection of Nitrite,” Crystals, 2022, 12, 12111536
7. Pitiphattharabun, S., Sato, N., Panomsuwan, G., Jongprateep O., “Electrocatalytic properties of a BaTiO₃/MWCNT composite for citric acid detection,” Catalysts, 2022, 12(1), pp. 49
8. Jongprateep, O., Mani-Lata, C., Sakunrak, Y., Audcharuk, K., Narapong, T., Janbooranapinij, K., Pitiphattharabun, S., Lertworasirikul, A., Laobuthee, A., Thengchaisri, N., Ajiro, H., Yoshida, H., Panomsuwan, G., “Titanium dioxide and fluoropolymer-based coating for smart fabrics with antimicrobial and water-repellent properties,” RSC Advances, 2021, 12(1), pp. 588-594
9. Meesombad, K., Sato, N., Pitiphattharabun, S., Panomsuwan, G., Techapiesancharoenkij, R., Surawathanawises, K., Wongchoosuk, C., Boonsalee, S., Pee, J.H., Jongprateep, O., “Zn-doped TiO₂nanoparticles for glutamate sensors,” Ceramics International, 2021, 47, pp. 21099–21107
10. Pitiphattharabun, S., Meesombad, K., Panomsuwan, G., Jongprateep, O., “MWCNT/Ti-doped ZnO nanocomposite as electrochemical sensor for detecting glutamate and ascorbic acid,” International Journal of Applied Ceramic Technology, 2021, 19, pp. 467-479
11. Sato, N., Haruta, M., Ohta, Y., Sasagawa, K., Ohta, J., Pewnim, N., Jongprateep, O., “Fe₂O₃/MWCNTs Modified Microdialysis Electrode for Dopamine Detection,” Materials Research Express, 2020, 7, pp. 015701
12. Chandeng, L., Meesak, T., Tuakta, C., Jirawattanasomkul, T., Ueda T., Jongprateep O. “Effects of Water Content on Compressive Strength of Eco-friendly Light-weight Cement Blocks Using Cement-like Material Prepared from Agricultural Wastes“, Chiang Mai Journal of Science, 2020, 47, pp. 700-711
13. Sato N., Haruta, M., Sasagawa, K., Ohta, J., Jongprateep, O., “Fe and co-doped (Ba, Ca)TiO₃Perovskite as Potential Electrocatalysts For Glutamate Sensing,” Engineering Journal, 2019, 23(6), pp. 265-278
14. Jongprateep, O., Sato, N., Techapiesancharoenkij, R., Surawathanawises, K., “Electrocatalytic Properties of Calcium Titanate, Strontium Titanate, and Strontium Calcium Titanate Powders Synthesized by Solution Combustion Technique,” Advances in Materials Science and Engineering, 2019, 1612456
15. Jongprateep, O., Sato, N., Techapiesancharoenkij, R., Surawathanawises, K.,Siwayaprahm, P., Watthanarat, P., “Photocatalytic and antimicrobial activities of Sr_xCa_(1-x)TiO₃(x=0, 0.25, 0.5, 0.75 and 1) Powders Synthesized by Solution Combustion Technique,” Journal of Metals, Materials and Minerals, 2019, 29, pp. 42-47
16. Jongprateep, O., Meesombad, K., Techapiesancharoenkij, R., Surawathanawises, K.,Siwayaprahm, P., Watthanarat, P., “Influences of Chemical Composition, Microstructure and Bandgap Energy on Photocatalytic and Antimicrobial Activities of ZnO and Ag-doped ZnO by solution combustion technique,” Journal of Metals, Materials and Minerals, 2019, 29(1), pp. 78-85
17. Jongprateep, O., Inseemeesak, B., Techapiesancharoenkij, R., Bansiddhi, A., Vijarnsorn, M. Effects of Surface Modification Processes on the Adhesion of Hydroxyapatite Layers Coated onto Titanium Substrates,” Journal of Metals, Materials and Minerals, 2019, 29(4), pp. 69-79
18. Jongprateep, O.; Meesombad, K.; Techapiesancharoenkij, R.; Surawathanawises, K., “Chemical Composition, Microstructure, Bandgap Energy and Electrocatalytic Activities of TiO₂ and Ag-doped TiO₂ Powder Synthesized by Solution Combustion Technique,” Ceramics International, 2018, 44, p. S228-S232.
19. Jongprateep, O.; Wattana, N,; Sato, N.; Kien, P.T.; Inseemeesak, B., “Effects of Solid Loadings and Silica Addition on Microstructure and Compressive Strength of Hydroxyapatite Specimens Fabricated by Freeze Casting Technique,” Ceramics International, 2018, 44, p. S156-S160.
20. Jongprateep, O.; Jaroonvechatam, N.; Meesak, T.; Sujjavanich, S., “Effects of Aluminium Addition on Inhibition of Concrete Expansion Resulted from Alkali Silica Reaction (ASR),” International Journal of GEOMATE, 2018, 15, p. 91-97.
21. Jongprateep O.; Deedit, P.; Puranasamriddhi, R.; Meesombad, K., “Synthesis of Nanoparticulate Ti-doped ZnO by Solution Combustion Technique,” Journal of Metals Materials and Minerals, 2018, 28, p. 104-108.
22.  Jaroonvechatam, N.; Meesak, T.; Sujjavanich, S.; Jongprateep, O., “Fabrication of Porous Mortar to Alleviate Failure Caused by Alkali-Silica Reaction (ASR),” Materiaux & Techniques, 2017, 105, p. 201-205.
23. Jongprateep, O.; Palomas, J., “Effects of Mg Addition and Sintering Temperatures on Chemical Compositions, Microstructures, Densities and Dielectric Properties of Strontium Titanate,” Ceramics International, 41, 2015, p. S63-S68.
24. Jongprateep, O.; Puranasamriddhi, R.; Palomas, J., “Nanoparticulate Titanium Dioxide Synthesized by Sol-Gel and Solution Combustion Techniques,” Ceramics International, 2015, 41, p. S169-S173.
25. Jongprateep, O.; Khongnakhon, T., “Effect of Al and Mg Doping on Dielectric Properties of BaTiO₃ Synthesized by Solution Combustion Technique,” Ferroelectrics, 2013, 457, p. 1-8.
26. Jongprateep, O.; Chansuriya, A.; Rugthaichareoncheep, S., “Composition and Particle Size of REBa₂Cu₃O_7-x Superconductor Powders Synthesized by Solid State Reaction,” Suranaree Journal of Science and Technology, 2013, 19, p. 155-160.
27. Jongprateep, O.; Tanmee, K., “Effect of Fuel Concentration and Calcination Temperature on the Composition and Particle Size of YBa₂Cu₃O_7-x Superconductors Synthesized by the Solution Combustion Technique,” Journal of the Australian Ceramics Society, 2012, 48, p. 80-84.
28. Jongprateep, O.; Dogan, F., “Nanoparticulate Composites of Melt-Textured YBa₂Cu₃O_7-x Superconductors,” Journal of European Ceramic Society, 2008, 28, p. 2405–
29. Jongprateep, O.; Petrosky, V.; Dogan, F., “Effects of Yttria Concentration and Microstructure on Electrical Breakdown of Yttria Stabilized Zirconia,” Journal of Metals Materials and Minerals, 2008, 18, p. 9-14.
30. Jongprateep, O.; Dogan, F., “Enhancement of Crystal Growth and Superconducting Properties of Melt-Textured YBa2Cu3O7-x through Addition of BaCeO₃ and BaSnO₃,” Superconductor Science and Technology, 2006, 19, p. 1130-1135.
31. Jongprateep, O.; Dogan, F.; Strasik, M.; McCrary, K., “Effect of BaCeO₃ and BaSnO₃ Additives on Microstructural Development and Critical Current Density of Melt Textured YBa₂Cu₃O_7-x,” IEEE Transactions of Applied Superconductivity, 2005, 15, p. 3864-3867.
32. Jongprateep, O.; Chan, S.W., “Twin Spacing and Its Correlation with Critical Current Density in Melt-Textured YBCO with Yttria Nanoparticles Addition,” IEEE Transactions of Applied Superconductivity, 2003, 13, p. 3502-3505.

บทความวิจัยที่ตีพิมพ์ใน Book Series and Conference Proceedings Indexed in Scopus ในฐานะ First หรือ Corresponding author

1. Jongprateep, O.; Sato, N., “Effects of Synthesis Techniques on Chemical Composition, Microstructure and Dielectric Properties of Mg-Doped Calcium Titanate,” AIP Conference Proceedings, vol. 1957, 2018, (Article number 0200021).
2. Jongprateep, O.; Sato, N.; Boonsalee, S.; Pee, J.H., “Microstructures and Dielectric Constants of Ba_0.05Sr_xCa_0.95-x TiO₃ (x = 0, 0.225, 0.475, 0.725 and 0.95) Synthesized by the Solution Combustion Technique,” Key Engineering Materials, vol. 766, 2018, p. 197-204.
3. Jongprateep O.; Meesombad, K.; Techapiesancharoenkij, R.; Surawathanawises, K.; Munprom, R., “Effects of Sn Concentration on Chemical Composition, Microstructure and Photocatalytic Activity of Nanoparticulate Sn-doped TiO₂ Powders Synthesized by Solution Combustion Technique,” Key Engineering Materials, vol. 766, 2018, p. 191-96.
4. Jongprateep, O.; Chunwijitra, K., “Effects of Eu Doping and Calcination Temperatures on Chemical Compositions, Microstructure and Luminescent Intensity of BaAl₂O₄,” Key Engineering Materials, vol. 766, 2018, p. 233-240.
5. Jongprateep, O.; Puranasamriddhi, R., “Effects of Reagents on the Formation of Nanoparticulate Titanium Dioxide Synthesized by Sol-Gel Technique,” Materials Today: Proceedings, vol. 5, 2018, p. 10925-10931.
6. Jongprateep, O.; N.; Sato, N.; Boonsalee, S.; Pee, J.H., “Effects of Chemical Composition on Structure and Dielectric Constants of Sr_xCa _(1–X)TiO₃ Synthesized by Solution Combustion Technique,” Materials Today: Proceedings, vol. 5, 2018, p. 14992-14997.
7. Jongprateep, O.; Techapiesancharoenkij, R.; Surawathanawises, K; Saisriyoot, M; Kamchaddaskorn, A; Wangkhumphai, K.; Puranasamriddhi, R.; Sato, N., “Solution Combustion Route for Synthesizing Co₃O₄/MWCNTs and Mn2O3/MWCNTs Electrodes as Glucose Sensors,” Materials Today: Proceedings, vol. 5, 2018, p. 10946-10953.
8. Jongprateep, O.; R.; Sato, “Effects of Ba Concentrations and Sintering Temperature on Dielectric Properties of Ba-Doped Calcium Titanate,” Materials Today: Proceedings, vol. 5, 2018, p. 9298–9305.
9. Jongprateep, O.; Jaroonvechatam, N.; Meesak, T.; Sujjavanich, S., “Effects of Glass and Limestone Aggregates and Aluminium on Porosity, Expansion, and Strength of Mortar Bars,” Materials Today: Proceedings, vol. 5, 2018, p. 9306–9311.
10. Jongprateep, O.; Sato, N., “Effects of Synthesis Techniques on Chemical Composition, Microstructure and Dielectric Properties of Mg-doped Calcium Titanate,” The Conference Proceedings of American Institute of Physics, 2018, p. 020002(1)-020002(7).
11. Jongprateep, O.; Sato, N., “Chemical Composition-Microstructure-Dielectric Constant Relations of Mg-Doped Calcium Titanate Synthesized by Solid State Reaction Technique,” Key Engineering Materials, vol. 751, 2017, p. 390-396.
12. Jongprateep, O.; Sato, N., “Effects of Synthesis Techniques on Chemical Composition, Microstructure and Dielectric Properties of Mg-Doped Calcium Titanate,” AIP Conference Proceedings, vol. 1957, 2018, (Article number 0200021).
13. Jongprateep, O.; Sato, N.; Boonsalee, S.; Pee, J.H., “Microstructures and Dielectric Constants of Ba_0.05Sr_xCa_0.95-x TiO₃ (x = 0, 0.225, 0.475, 0.725 and 0.95) Synthesized by the Solution Combustion Technique,” Key Engineering Materials, vol. 766, 2018, p. 197-204.
14. Jongprateep O.; Meesombad, K.; Techapiesancharoenkij, R.; Surawathanawises, K.; Munprom, R., “Effects of Sn Concentration on Chemical Composition, Microstructure and Photocatalytic Activity of Nanoparticulate Sn-doped TiO2 Powders Synthesized by Solution Combustion Technique,” Key Engineering Materials, vol. 766, 2018, p. 191-96.
15. Jongprateep, O.; Chunwijitra, K., “Effects of Eu Doping and Calcination Temperatures on Chemical Compositions, Microstructure and Luminescent Intensity of BaAl₂O₄,” Key Engineering Materials, vol. 766, 2018, p. 233-240.
16. Jongprateep, O.; Puranasamriddhi, R., “Effects of Reagents on the Formation of Nanoparticulate Titanium Dioxide Synthesized by Sol-Gel Technique,” Materials Today: Proceedings, vol. 5, 2018, p. 10925-10931.
17. Jongprateep, O.; R.; Sato, N.; Boonsalee, S.; Pee, J.H., “Effects of Chemical Composition on Structure and Dielectric Constants of Sr_xCa_(1–X)TiO₃ Synthesized by Solution Combustion Technique,” Materials Today: Proceedings, vol. 5, 2018, p. 14992-14997.
18. Jongprateep, O.; Techapiesancharoenkij, R.; Surawathanawises, K; Saisriyoot, M; Kamchaddaskorn, A; Wangkhumphai, K.; Puranasamriddhi, R.; Sato, N., “Solution Combustion Route for Synthesizing Co3O4/MWCNTs and Mn2O3/MWCNTs Electrodes as Glucose Sensors,” Materials Today: Proceedings, vol. 5, 2018, p. 10946-10953.
19. Jongprateep, O.; R.; Sato, “Effects of Ba Concentrations and Sintering Temperature on Dielectric Properties of Ba-Doped Calcium Titanate,” Materials Today: Proceedings, vol. 5, 2018, p. 9298–9305.
20. Jongprateep, O.; Jaroonvechatam, N.; Meesak, T.; Sujjavanich, S., “Effects of Glass and Limestone Aggregates and Aluminium on Porosity, Expansion, and Strength of Mortar Bars,” Materials Today: Proceedings, vol. 5, 2018, p. 9306–9311.
21. Jongprateep, O.; Sato, N., “Effects of Synthesis Techniques on Chemical Composition, Microstructure and Dielectric Properties of Mg-doped Calcium Titanate,” The Conference Proceedings of American Institute of Physics, 2018, p. 020002(1)-020002(7).
22. Jongprateep, O.; Sato, N., “Chemical Composition-Microstructure-Dielectric Constant Relations of Mg-Doped Calcium Titanate Synthesized by Solid State Reaction Technique,” Key Engineering Materials, vol. 751, 2017, p. 390-396.
23. Palomas, J.; Jongprateep, O., “Effects of Aluminium Contents and Consolidation Techniques on Chemical Composition, Microstructure and Dielectric Properties of Strontium Titanate,” Key Engineering Materials, vol. 751, 2017, p. 403-409.
24. Jongprateep, O.; Jaroonvechatam, N.; Stienkijumpai, S.; Kaewsuwan, S.; Meesak, T., “Effects of Aluminum Concentrations on Microstructure and Compressive Strength of Porous Concrete,” Key Engineering Materials, vol. 751, 2017, p. 563-569.
25. Jongprateep, O.; Nueangjumnong, C.; Palomas, J., “Effect of Solids Loadings, Sintering Temperatures and Sintering Periods on Microstructure of Hydroxyapatite,” Key Engineering Materials, vol. 751, 2017, p. 629-635.
26. Jongprateep, O.; Puranasamriddhi, R., “Effects of Dissolving Agents on Particle Size Reduction of Titanium Dioxide Synthesized by Solution Combustion Technique,” Key Engineering Materials, vol. 690, 2016, p. 236-239.
27. Jongprateep, O.; Nueangjumnong, C., “Effects of Synthesis Techniques and Initial Reagents on Compositions and Particle Morphology of Hydroxyapatite,” Advanced Materials, Structures and Mechanical Engineering – Proceedings of the International Conference on Advanced Materials, Structures and Mechanical Engineering, South Korea, May 2015, p. 251-254.
28. Jongprateep, O.; Laomorakot, P.; Sathumbuch, P., “Synthesis of Cement-like Materials from Wastes by Solid-state Reaction and Solution Combustion Techniques,” Proceedings of the TMS Annual Meeting and Exhibition, Orlando, FL, March 2015, p. 233-240.
29. Jongprateep, O.; Puranasamriddhi, R., “Effects of Ageing Periods on Compositions and Sizes of Titanium Dioxide Particles Synthesized by Sol-Gel Technique,” Key Engineering Materials, vol. 658, 2015, p. 185-189.
30. Jongprateep, O.; Khongnakhon, T.; Palomas, J., “Composition Composition-Microstructure-Property Relationships in BaTiO₃ with Mg,” Key Engineering Materials, vol. 659, 2015, p. 58-63.
31. Jongprateep, O.; Khongnakhon, T.; Jantaratana, P.; Rugthaicharoencheep, S., “Effects of Ca Addition on Chemical Composition, Microstructure and Dielectric Properties of BaTiO₃,” Applied Mechanic Materials, vol. 575, 2014, p. 231-237.
32. Jongprateep, O.; Palomas, J.; Khongnakhon, T., “Enhancement of Dielectric Constants in Strontium Titanate through Mg and Al Doping,” Key Engineering Materials, vol. 608, 2014, p. 193-199.
33. Jongprateep, O.; Laomorakot, P.; Sirinunwatana, K., “Composition and Microstructure of Cement-like Materials Synthesized by Solution Combustion Technique,” Advanced Materials Research, vol. 1044, 2014, p. 16-22.
34. Khongnakhon, T.; Jongprateep, O.; “Ba_0.9 A_0.1TiO₃ (A = Al and Mg) Powders Synthesized by Solid State Reaction Technique and their Dielectric Properties,” Advanced Materials Research, vol. 747, 2013, p. 603-606.
35. Sato, N., Meesombad, K., Haruta, M., Ohta, Y., Sasagawa, K., Ohta, J., Jongprateep, O., “Zn-doped TiO₂ Powder Prepared by Solution Combustion Synthesis as Non-Enzymatic Sensor for Acetylcholine Detection,” Key Engineering Materials, 2020, 843, pp. 84-89
36. Jongprateep, O.; Tangbuppa, P.; Manasnilobon, N., “Compositions and Particle Sizes of (RE)Ba₂Cu₃O_7-x Superconductor Powders Synthesized by the Solution Combustion Technique,” Advanced Materials Research, vol. 488, 2012, p. 286-289.
37. Jongprateep, O.; Dogan, F., “Enhancement of Crystal Growth in Melt Texturing Ca-Doped Y-Ba-Cu-O Superconductors,” Ceramic Transactions, vol. 179, 2005, p. 103-108.
38. Jongprateep, O.; Dogan, F., “Coarsening of BaCeO3 and Y2BaCuO5 Particles in YBa₂Cu₃O_7-x Semisolid Melt,” Ceramic Transactions, vol. 160, 2004, p. 65-71.
39. Jongprateep, O.; Dogan, F., “Time-dependent Compositional and Morphology Change of YBa₂Cu₃O_7-x Semisolid Phase,” Key Engineering Materials, vol. 264, 2004, p. 1135-1140.
40. Jongprateep, O.; Dogan, F., “Effect of Y2BaCuO5 Morphology and Size in Semisolid Melt on Growth Rate of YBa₂Cu₃O_7-x Single Crystals,” Ceramic Transactions, vol. 150, 2003, p. 145-149.

ตำรา

Introduction to Electroceramics (2018)

ผลงานที่ได้ยื่นการจดอนุสิทธิบัตร

อนุสิทธิบัตรเลขที่ : 1903002202

เลขที่คำขอ : 2103000933

เลขที่คำขอ : 2203000663

สมาชิกสมาคมวิชาชีพ

กรรมการสมาคมวิจัยวัสดุ (MRS Thailand)

American Ceramics Society-Thailand Chapter

เกียรติคุณและรางวัล

1. รางวัลนักวิจัยผู้สร้างสรรค์ผลงานวิจัยตีพิมพ์ระดับนานาชาติ 2562 ปริมาณผลงานรวม 7.50 สถาบันวิจัยและพัฒนา มหาวิทยาลัยเกษตรศาสตร์
2. รางวัลชมเชยสาขาเทคโนโลยี-นวัตกรรมด้านการก่อสร้าง และสาธารณูปโภคพื้นฐานที่เป็นมิตรต่อสิ่งแวดล้อม Startup Thailand Hackathon 2018, 20 พฤษภาคม 2561, กรุงเทพมหานคร
3. Best Oral Presentation Award, The 6th International Conference on Nano and Materials Science, Jan 15, 2018, Florida, USA
4. Best Young Researcher Presentation Award, Asian Meeting on Ferroelectricity, Dec 13 2012, Chonburi

ผลงานวิชาการในลักษณะอื่น ๆ

1. การประเมินโครงการวิจัย
   1. โครงการภายใต้แผนงานกลุ่มเศรษฐกิจหมุนเวียน สำนักงานพัฒนาวิทยาศาสตร์และเทคโนโลยีแห่งชาติ
2. การประเมินบทความวิจัยในวารสารวิชาการ
   1. Journal of Materials Chemistry C
   2. Materials Express
   3. ASEAN Engineering Journal (AEJ)
   4. Materials Today Proceedings
   5. Bulletin of Applied Science
3. การประเมินบทความวิจัย/บทคัดย่อในการประชุมวิชาการนานาชาติ
   1. The Joint International Conference on Applied Physics and Materials Applications & Applied Magnetism and Ferroelectrics (ICAPMA-JMAG-2021)
   2. Materials Thailand 2021: The joint conference between Asian Meetings of Ferroelectrics (AMF) and Electroceramics (AMEC)
   3. The 5^thInternational Conference on Smart Materials and Nanotechnology (SmartMat@2020)
   4. 21st International Union of Materials Research Societies International Conference in Asia (IUMRS-ICA 2020)
   5. The 2nd Materials Research Society of Thailand International Conference (MRS-Thailand 2019)
   6. The 10^th International Conference on Materials Science and Technology (MSAT 2018