| Title | Author | Year | SCOPUS | PUBMED | ISI | TCI | |
|---|---|---|---|---|---|---|---|
| 1. | Mathematical models of bead-spring jets during electrospinning for fabrication of nanofibers | Dasri, T. | 2012 | ||||
| 2. | Simulation of Absorption Spectra of Metal Nanoparticles Embedded in Organic Media | Dasri, T. | 2015 | ||||
| 3. | Optical effects in the active layer of organic solar cells with embedded noble metal nanoparticles | Dasri, T. | 2016 | ||||
| 4. | Preparation and characterization of amorphous silica and calcium oxide from agricultural wastes | Dasri, T. | 2016 | ||||
| 5. | Theoretical calculation of plasmonic enhancement of silver nanosphere, nanocube, and nanorod embedded in organic solar cells | Dasri, T. | 2016 | ||||
| 6. | Composite Fe3O4@Au Core-Shell Nanoparticle: Tunable and Enhancement of Optical Absorption Property | Artit Chingsungnoen Panuwat Chaiyachate Thananchai Dasri |
2017 | ||||
| 7. | Composite Fe |
Chingsungnoen, A. Dasri, T. |
2017 | ||||
| 8. | Enhancement of the magneto-optical Kerr effect signal using bilayer metallic structures consisting of Co/noble metal | Thananchai Dasri Artit Chingsungnoen |
2017 | ||||
| 9. | Optical absorption and scattering properties of the active layer of perovskite solar cells incorporated silver nanoparticles | Panuwat Chaiyachate Thananchai Dasri |
2017 | ||||
| 10. | Effect of acetylene concentration on structural properties of hydrogenated amorphous carbon films prepared using showerhead plasma chemical vapor deposition | Artit Chingsungnoen Thananchai Dasri Phitsanu Poolcharuansin Anthika Lakhonchai Nong Khan Tidngim Pitak Eiamchai Noppadon Nuntawong Vittaya Amornkitbamrung |
2018 | ||||
| 11. | Optical properties of single gold nanoparticle embedded in organic medium | Chingsungnoen, A. Dasri, T. |
2018 | ||||
| 12. | Surface plasmon resonance enhanced light absorption and wavelength tuneable in gold-coated iron oxide spherical nanoparticle | Thananchai Dasri Artit Chingsungnoen |
2018 | ||||
| 13. | Theoretical calculation of optical and magneto optical properties of magnetite nanorods | Sukhontip Thaomola Supachai Sompech Thananchai Dasri |
2018 | ||||
| 14. | Theoretical calculation of optical absorption property of Cu@Ag core-shell composite nanoparticle | Sompech, S. Chingsungnoen, A. Dasri, T. |
2019 | ||||
| 15. | Tunable optical and magneto-optical properties of nickel-polymer nanoparticles | Chingsungnoen, A. Dasri, T. |
2019 | ||||
| 16. | Characterization of a bacterial cellulose-silica nanocomposite prepared from agricultural waste products | Soemphol, W. Sompech, S. Hongsachart, P. Dasri, T. |
2020 | ||||
| 17. | Optical properties of TiO2@Ag nanowires and nanospheres | Dasri, T. Chaiyachate, P. Audtarat, S. Charee, P. Chingsungnoen, A. |
2020 | ||||
| 18. | Optical properties of TiO |
Dasri, T. Chaiyachate, P. Audtarat, S. Charee, P. Chingsungnoen, A. |
2020 | ||||
| 19. | Theoretical calculation of the optical absorption property of nanoparticles composed of an Au Core and Si shell embedded in silica | Dasri, T. Chingsungnoen, A. |
2020 | ||||
| 20. | Tuning the optical and magneto-optical properties in core-shell structured Fe@Ag nanoparticles | Seehamart, K. Chingsungnoen, A. Dasri, T. |
2020 | ||||
| 21. | Localized surface plasmon resonance for improving optical absorption in core-shell Ag@TiO2 nanoparticles | Supachai Sompech Pongsak Jittabut Sukhontip Thaomola Sasiporn Audtarat Panadda Charee Thananchai Dasri |
2021 | ||||
| 22. | Localized surface plasmon resonance for improving optical absorption in core-shell Ag@TiO |
Sompech, S. Dasri, T. |
2021 | ||||
| 23. | Green synthesis of silver nanoparticles loaded into bacterial cellulose for antimicrobial application | Hongsachart, P. Dasri, T. Chio-Srichan, S. Wongsinlatam, W. Sompech, S. |
2022 | ||||
| 24. | Development of antimicrobial cotton fabrics by decoration with silver nanoparticles and activated carbon composite | Chaisen, K. Audtarat, S. Thepsiri, J. Dasri, T. |
2023 | ||||
| 25. | Preparation and antibacterial property of silver nanoparticles loaded into bacterial cellulose | Homwan, W. Chaisen, K. Audtarat, S. Suwonnachot, W. Dasri, T. |
2023 | ||||
| 26. | Production and characterization of bacterial cellulose produced by Gluconacetobacter xylinus BNKC 19 using agricultural waste products as nutrient source | Jittaut, P. Hongsachart, P. Audtarat, S. Dasri, T. |
2023 | ||||
| 27. | Functionalization of silver nanoparticles coating cotton fabrics through hydrothermal synthesis for improved antimicrobial properties | Tooklang, P. Audtarat, S. Chaisen, K. Thepsiri, J. Chingsungnoen, A. Jittabut, P. Dasri, T. |
2024 | ||||
| 28. | Influence of silver nanoparticles on enhancing performance of optical absorption property in a perovskite solar cell | Soemphol, C. Dasri, T. |
2024 | ||||
| 29. | Ecofriendly surface improvement of cotton fabric by a plasma-assisted method to enhance silver nanoparticle adhesion for antimicrobial properties | Audtarat, S. Thepsiri, J. Chingsungnoen, A. Dasri, T. |
2025 | ||||
| 30. | Fabrication of novel composite materials by impregnating ZnO particles into bacterial cellulose nanofibers for antimicrobial applications | Audtarat, S. Wongsinlatam, W. Thepsiri, J. Dasri, T. |
2025 | ||||
| 31. | Green synthesis of silver nanoparticles using Ageratum conyzoides for activated carbon compositing to prepare antimicrobial cotton fabric | Thepsiri, J. Audtarat, S. Dasri, T. |
2025 | Count | 29 | 0 | 11 | 0 |
| Title | Authors | Year | Publication name | Cited count | ||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| < 2020 | 2021 | 2022 | 2023 | 2024 | 2025 | Total | ||||||
| 1. | Mathematical models of bead-spring jets during electrospinning for fabrication of nanofibers | Dasri, T. | 2012 |
Walailak Journal of Science and Technology 4 (9), pp. 287-296 |
||||||||
| 2. | Simulation of Absorption Spectra of Metal Nanoparticles Embedded in Organic Media | Dasri, T. | 2015 |
Integrated Ferroelectrics 1 (165), pp. 176-184 |
||||||||
| 3. | Optical effects in the active layer of organic solar cells with embedded noble metal nanoparticles | Dasri, T. | 2016 |
Oriental Journal of Chemistry 1 (32), pp. 85-91 |
||||||||
| 4. | Preparation and characterization of amorphous silica and calcium oxide from agricultural wastes | Dasri, T. | 2016 |
Oriental Journal of Chemistry 4 (32), pp. 1923-1928 |
||||||||
| 5. | Theoretical calculation of plasmonic enhancement of silver nanosphere, nanocube, and nanorod embedded in organic solar cells | Dasri, T. | 2016 |
Integrated Ferroelectrics 1 (175), pp. 176-185 |
||||||||
| 6. | Composite Fe<inf>3</inf>O<inf>4</inf>@ Au core-shell nanoparticle: Tunable and enhancement of optical absorption property | Chingsungnoen, A. Dasri, T. |
2017 |
Oriental Journal of Chemistry 4 (33), pp. 1642-1647 |
||||||||
| 7. | Enhancement of the magneto-optical Kerr effect signal using bilayer metallic structures consisting of Co/noble metal | Dasri, T. Chingsungnoen, A. |
2017 |
Materials Research Express 12 (4), pp. |
||||||||
| 8. | Optical absorption and scattering properties of the active layer of perovskite solar cells incorporated silver nanoparticles | Dasri, T. | 2017 |
Oriental Journal of Chemistry 2 (33), pp. 807-813 |
||||||||
| 9. | Effect of acetylene concentration on structural properties of hydrogenated amorphous carbon films prepared using showerhead plasma chemical vapor deposition | Chingsungnoen, A. Dasri, T. Eiamchai, P. Amornkitbamrung, V. |
2018 |
Chiang Mai Journal of Science 6 (45), pp. 2471-2480 |
||||||||
| 10. | Optical properties of single gold nanoparticle embedded in organic medium | Chingsungnoen, A. Dasri, T. |
2018 |
Materials Today: Proceedings 5 (5), pp. 11027-11034 |
||||||||
| 11. | Surface plasmon resonance enhanced light absorption and wavelength tuneable in gold-coated iron oxide spherical nanoparticle | Dasri, T. Chingsungnoen, A. |
2018 |
Journal of Magnetism and Magnetic Materials (456), pp. 368-371 |
||||||||
| 12. | Theoretical calculation of optical and magneto optical properties of magnetite nanorods | Sompech, S. Dasri, T. |
2018 |
Materials Today: Proceedings 5 (5), pp. 11035-11042 |
||||||||
| 13. | Theoretical calculation of optical absorption property of Cu@Ag core-shell composite nanoparticle | Sompech, S. Chingsungnoen, A. Dasri, T. |
2019 |
Materials Research Express 2 (6), pp. |
||||||||
| 14. | Tunable optical and magneto-optical properties of nickel-polymer nanoparticles | Chingsungnoen, A. Dasri, T. |
2019 |
Integrated Ferroelectrics 1 (195), pp. 1-10 |
||||||||
| 15. | Characterization of a bacterial cellulose-silica nanocomposite prepared from agricultural waste products | Soemphol, W. Sompech, S. Hongsachart, P. Dasri, T. |
2020 |
Materials Research Express 1 (7), pp. |
||||||||
| 16. | Optical properties of TiO2@Ag nanowires and nanospheres | Dasri, T. Chaiyachate, P. Audtarat, S. Charee, P. Chingsungnoen, A. |
2020 |
Journal of Metals, Materials and Minerals 3 (30), pp. 30-37 |
||||||||
| 17. | Optical properties of TiO<inf>2</inf>@Ag nanowires and nanospheres | Dasri, T. Chaiyachate, P. Audtarat, S. Charee, P. Chingsungnoen, A. |
2020 |
Journal of Metals, Materials and Minerals 3 (30), pp. 30-37 |
||||||||
| 18. | Theoretical calculation of the optical absorption property of nanoparticles composed of an Au Core and Si shell embedded in silica | Dasri, T. Chingsungnoen, A. |
2020 |
Materials Research Express 1 (7), pp. |
||||||||
| 19. | Tuning the optical and magneto-optical properties in core-shell structured Fe@Ag nanoparticles | Seehamart, K. Chingsungnoen, A. Dasri, T. |
2020 |
Advances in Natural Sciences: Nanoscience and Nanotechnology 4 (11), pp. |
||||||||
| 20. | Localized surface plasmon resonance for improving optical absorption in core-shell Ag@TiO<inf>2</inf> nanoparticles | Sompech, S. Dasri, T. |
2021 |
ScienceAsia 3 (47), pp. 340-346 |
||||||||
| 21. | Green synthesis of silver nanoparticles loaded into bacterial cellulose for antimicrobial application | Hongsachart, P. Dasri, T. Chio-Srichan, S. Wongsinlatam, W. Sompech, S. |
2022 |
Nanocomposites (), pp. |
||||||||
| 22. | Development of antimicrobial cotton fabrics by decoration with silver nanoparticles and activated carbon composite | Chaisen, K. Audtarat, S. Thepsiri, J. Dasri, T. |
2023 |
Materials Research Express 10 (10), pp. |
||||||||
| 23. | Preparation and antibacterial property of silver nanoparticles loaded into bacterial cellulose | Homwan, W. Chaisen, K. Audtarat, S. Suwonnachot, W. Dasri, T. |
2023 |
Materials Research Express 5 (10), pp. |
||||||||
| 24. | Production and characterization of bacterial cellulose produced by Gluconacetobacter xylinus BNKC 19 using agricultural waste products as nutrient source | Jittaut, P. Hongsachart, P. Audtarat, S. Dasri, T. |
2023 |
Arab Journal of Basic and Applied Sciences 1 (30), pp. 221-230 |
||||||||
| 25. | Functionalization of silver nanoparticles coating cotton fabrics through hydrothermal synthesis for improved antimicrobial properties | Tooklang, P. Audtarat, S. Chaisen, K. Thepsiri, J. Chingsungnoen, A. Jittabut, P. Dasri, T. |
2024 |
Nano Express 2 (5), pp. |
||||||||
| 26. | Influence of silver nanoparticles on enhancing performance of optical absorption property in a perovskite solar cell | Soemphol, C. Dasri, T. |
2024 |
Nano Express 3 (5), pp. |
||||||||
| 27. | Ecofriendly surface improvement of cotton fabric by a plasma-assisted method to enhance silver nanoparticle adhesion for antimicrobial properties | Audtarat, S. Thepsiri, J. Chingsungnoen, A. Dasri, T. |
2025 |
Nanocomposites 1 (11), pp. 112-122 |
||||||||
| 28. | Fabrication of novel composite materials by impregnating ZnO particles into bacterial cellulose nanofibers for antimicrobial applications | Audtarat, S. Wongsinlatam, W. Thepsiri, J. Dasri, T. |
2025 |
Green Processing and Synthesis 1 (14), pp. |
||||||||
| 29. | Green synthesis of silver nanoparticles using Ageratum conyzoides for activated carbon compositing to prepare antimicrobial cotton fabric | Thepsiri, J. Audtarat, S. Dasri, T. |
2025 |
Nanotechnology Reviews 1 (14), pp. |
||||||||
| Title | Authors | Year | Journal title |
|---|
| Title | Authors | Year | Journal title | Cited count | ||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| < 2020 | 2021 | 2022 | 2023 | 2024 | 2025 | Total | ||||||
| 1. | Composite Fe3O4@Au Core-Shell Nanoparticle: Tunable and Enhancement of Optical Absorption Property | Artit Chingsungnoen Panuwat Chaiyachate Thananchai Dasri |
2017 |
ORIENTAL JOURNAL OF CHEMISTRY 4.0 (33.0), pp. 1642.0-1647.0 |
11 | 0 | 0 | 0 | 0 | 0 | 11 | |
| 2. | Enhancement of the magneto-optical Kerr effect signal using bilayer metallic structures consisting of Co/noble metal | Thananchai Dasri Artit Chingsungnoen |
2017 |
MATERIALS RESEARCH EXPRESS 12.0 (4.0), pp. |
5 | 0 | 0 | 0 | 0 | 0 | 5 | |
| 3. | Optical Absorption and Scattering Properties of The Active Layer Of Perovskite Solar Cells Incorporated Silver Nanoparticles | Panuwat Chaiyachate Thananchai Dasri |
2017 |
ORIENTAL JOURNAL OF CHEMISTRY 2.0 (33.0), pp. 807.0-813.0 |
9 | 0 | 0 | 0 | 0 | 0 | 9 | |
| 4. | Effect of Acetylene Concentration on Structural Properties of Hydrogenated Amorphous Carbon Films Prepared using Showerhead Plasma Chemical Vapor Deposition | Artit Chingsungnoen Thananchai Dasri Phitsanu Poolcharuansin Anthika Lakhonchai Nong Khan Tidngim Pitak Eiamchai Noppadon Nuntawong Vittaya Amornkitbamrung |
2018 |
CHIANG MAI JOURNAL OF SCIENCE 6.0 (45.0), pp. 2471.0-2480.0 |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 5. | Optical properties of single gold nanoparticle embedded in organic medium | Artit Chingsungnoen Thananchai Dasri |
2018 |
MATERIALS TODAY-PROCEEDINGS 5.0 (5.0), pp. 11027.0-11034.0 |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 6. | Surface plasmon resonance enhanced light absorption and wavelength tuneable in gold-coated iron oxide spherical nanoparticle | Thananchai Dasri Artit Chingsungnoen |
2018 |
JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS (456.0), pp. 368.0-371.0 |
27 | 0 | 0 | 0 | 0 | 0 | 27 | |
| 7. | Theoretical calculation of optical and magneto optical properties of magnetite nanorods | Sukhontip Thaomola Supachai Sompech Thananchai Dasri |
2018 |
MATERIALS TODAY-PROCEEDINGS 5.0 (5.0), pp. 11035.0-11042.0 |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 8. | Theoretical calculation of optical absorption property of Cu@Ag core-shell composite nanoparticle | Supachai Sompech Sukhontip Thaomola Artit Chingsungnoen Thananchai Dasri |
2019 |
MATERIALS RESEARCH EXPRESS 2.0 (6.0), pp. |
14 | 0 | 0 | 0 | 0 | 0 | 14 | |
| 9. | Tunable optical and magneto-optical properties of nickel-polymer nanoparticles | Artit Chingsungnoen Thananchai Dasri |
2019 |
INTEGRATED FERROELECTRICS 1.0 (195.0), pp. 1.0-10.0 |
6 | 0 | 0 | 0 | 0 | 0 | 6 | |
| 10. | Tuning the optical and magneto-optical properties in core-shell structured Fe@Ag nanoparticles | Pongsak Jittabut Kompichit Seehamart Artit Chingsungnoen Thananchai Dasri |
2020 |
ADVANCES IN NATURAL SCIENCES-NANOSCIENCE AND NANOTECHNOLOGY 4.0 (11.0), pp. |
1 | 0 | 0 | 0 | 0 | 0 | 1 | |
| 11. | Localized surface plasmon resonance for improving optical absorption in core-shell Ag@TiO2 nanoparticles | Supachai Sompech Pongsak Jittabut Sukhontip Thaomola Sasiporn Audtarat Panadda Charee Thananchai Dasri |
2021 |
SCIENCEASIA 3.0 (47.0), pp. 340.0-346.0 |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| Title | Authors | Year | Journal title |
|---|
| Title | Authors | NRIIS type | Year | NRIIS Scholarship | ||
|---|---|---|---|---|---|---|
| 1. | การเตรียมวอล์ลาสโทไนต์จากวัสดุเหลือทิ้งทางการเกษตร |
ผศ.ดร. ศุภชัย สมเพ็ชร ดร. สุคนทิพย์ เถาว์โมลา ผศ.ดร. ธนัญชัย ดาศรี |
โครงการ | 2559 | ทุนงบประมาณแผ่นดินประจำปี 2559 (เป้าหมาย2) | |
| 2. | การสังเคราะห์ผงวอล์ลาสโทไนต์โดยวิธีการรวมวิธีเคมีเชิงกลและวิธีปฏิกิริยาสถานะของแข็ง |
ผศ.ดร. ศุภชัย สมเพ็ชร ผศ.ดร. ธนัญชัย ดาศรี ดร. สุคนทิพย์ เถาว์โมลา |
โครงการ | 2561 | ทุนงบประมาณแผ่นดินประจำปี 2561 (งบบูรณาการวิจัยและนวัตกรรม) | |
| 3. | ปรากฏการณ์ทัศนศาสตร์แม่เหล็กของเคอร์ในฟิล์มบางวัสดุแม่เหล็กซึ่งมีทิศทางของแม็กเนไตเซชันต่างๆ กัน |
ผศ.ดร. ธนัญชัย ดาศรี |
โครงการ | 2561 | ทุนงบประมาณแผ่นดินประจำปี 2561 (งบบูรณาการวิจัยและนวัตกรรม) | |
| 4. | การศึกษาเชิงคำนวณคุณสมบัติด้านทัศนศาสตร์ และทัศนศาสตร์แม่เหล็ก ของวัสดุผสมในระดับนาโนของโลหะมีตระกูลกับวัสดุแม่เหล็ก |
ผศ.ดร. ธนัญชัย ดาศรี |
โครงการ | 2562 | ทุนงบประมาณแผ่นดินประจำปี 2562 (งบบูรณาการวิจัยและนวัตกรรม) |