Title | Author | Year | SCOPUS | PUBMED | ISI | TCI | |
---|---|---|---|---|---|---|---|
1. | Using the Kelvin-Voigt model for nanoindentation creep in Sn-C/PVDF nanocomposites | S. A. Hackney K. E. Aifantis A. Tangtrakarn S. Shrivastava |
2012 | ||||
2. | Efficiency enhancement for dye-sensitized solar cells with a porous NiO/Pt counter electrode | Maiaugree, W. Kongprakaiwoot, N. Tangtrakarn, A. Saekow, S. Pimanpang, S. Amornkitbamrung, V. |
2014 | ||||
3. | Templateless synthesis and characterization of hollow gadolinium doped cerium oxide nanofibers by electrospinning | Thiabdokmai, C. Tangtrakarn, A. Ngiewlay, P. Mongkolkachit, C. |
2014 | ||||
4. | A dye sensitized solar cell using natural counter electrode and natural dye derived from mangosteen peel waste | Maiaugree, W. Lowpa, S. Towannang, M. Rutphonsan, P. Tangtrakarn, A. Pimanpang, S. Ratchapolthavisin, N. Sang-Aroon, W. Jarernboon, W. Amornkitbamrung, V. |
2015 | ||||
5. | Facile synthesis of bilayer carbon/Ni |
Maiaugree, W. Tangtrakarn, A. Lowpa, S. Ratchapolthavisin, N. Amornkitbamrung, V. |
2015 | ||||
6. | A new sol-gel precursor for preparation of La0.56Sr0.42Co0.2Fe0.8O3-delta film | S. Promsuy A. Tangtrakarn C. Mongkolkachit S. Wanakitti V. Amornkitbamrung |
2016 | ||||
7. | A Dye-Sensitized Solar Cell Using a Composite of PEDOT: PSS and Carbon Derived from Human Hair for a Counter Electrode | Tangtrakarn, A. Mongkolkachit, C. Maiaugree, W. Amornkitbamrung, V. |
2017 | ||||
8. | Effect of cell temperatures and flow-field patterns of bipolar plate electrodes on the performance of proton exchange membrane fuel cell by computational simulation | Srimongkon, K. Tangtrakarn, A. Faibut, N. Uppachai, P. Towannang, M. Amornkitbamrung, V. |
2017 | ||||
9. | Effect of calcination temperature on the conductivity of Sm and Cu co-doped ceria | Tangtrakarn, A. | 2018 | ||||
10. | Effect of Substrate Surface Roughening on the Capacitance and Cycling Stability of Ni(OH) |
Tangtrakarn, A. Daengsakul, S. |
2019 | ||||
11. | High stability arc-evaporated carbon counter electrodes in a dye sensitized solar cell based on inorganic and organic redox mediators | Tangtrakarn, A. Maiaugree, W. Uppachai, P. Ratchapolthavisin, N. Swatsitang, E. Amornkitbamrung, V. |
2019 | Count | 10 | 0 | 2 | 0 |
Title | Authors | Year | Publication name | Cited count | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
< 2015 | 2016 | 2017 | 2018 | 2019 | 2020 | รวม | ||||||
1. | Using the Kelvin-Voigt model for nanoindentation creep in Sn-C/PVDF nanocomposites | Tangtrakarn, A. | 2012 |
Materials Science and Technology (United Kingdom) 9-10 (28), pp. 1161-1166 |
||||||||
2. | Efficiency enhancement for dye-sensitized solar cells with a porous NiO/Pt counter electrode | Maiaugree, W. Kongprakaiwoot, N. Tangtrakarn, A. Saekow, S. Pimanpang, S. Amornkitbamrung, V. |
2014 |
Applied Surface Science (289), pp. 72-76 |
||||||||
3. | Templateless synthesis and characterization of hollow gadolinium doped cerium oxide nanofibers by electrospinning | Thiabdokmai, C. Tangtrakarn, A. Ngiewlay, P. Mongkolkachit, C. |
2014 |
Advances in Materials Science and Engineering (2014), pp. |
||||||||
4. | A dye sensitized solar cell using natural counter electrode and natural dye derived from mangosteen peel waste | Maiaugree, W. Lowpa, S. Towannang, M. Rutphonsan, P. Tangtrakarn, A. Pimanpang, S. Ratchapolthavisin, N. Sang-Aroon, W. Jarernboon, W. Amornkitbamrung, V. |
2015 |
Scientific Reports (5), pp. |
||||||||
5. | Facile synthesis of bilayer carbon/Ni<inf>3</inf>S<inf>2</inf> nanowalls for a counter electrode of dye-sensitized solar cell | Maiaugree, W. Tangtrakarn, A. Lowpa, S. Ratchapolthavisin, N. Amornkitbamrung, V. |
2015 |
Electrochimica Acta (174), pp. 955-962 |
||||||||
6. | A Dye-Sensitized Solar Cell Using a Composite of PEDOT: PSS and Carbon Derived from Human Hair for a Counter Electrode | Tangtrakarn, A. Mongkolkachit, C. Maiaugree, W. Amornkitbamrung, V. |
2017 |
International Journal of Photoenergy (2017), pp. |
||||||||
7. | Effect of cell temperatures and flow-field patterns of bipolar plate electrodes on the performance of proton exchange membrane fuel cell by computational simulation | Srimongkon, K. Tangtrakarn, A. Faibut, N. Uppachai, P. Towannang, M. Amornkitbamrung, V. |
2017 |
Chiang Mai Journal of Science 4 (44), pp. 1676-1685 |
||||||||
8. | Effect of calcination temperature on the conductivity of Sm and Cu co-doped ceria | Tangtrakarn, A. | 2018 |
Journal of Physics: Conference Series 1 (1144), pp. |
||||||||
9. | Effect of Substrate Surface Roughening on the Capacitance and Cycling Stability of Ni(OH)<inf>2</inf> Nanoarray Films | Tangtrakarn, A. Daengsakul, S. |
2019 |
Scientific Reports 1 (9), pp. |
||||||||
10. | High stability arc-evaporated carbon counter electrodes in a dye sensitized solar cell based on inorganic and organic redox mediators | Tangtrakarn, A. Maiaugree, W. Uppachai, P. Ratchapolthavisin, N. Swatsitang, E. Amornkitbamrung, V. |
2019 |
Diamond and Related Materials (97), pp. |
Title | Authors | Year | Journal title |
---|
Title | Authors | Year | Journal title | Cited count | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
< 2015 | 2016 | 2017 | 2018 | 2019 | 2020 | รวม | ||||||
1. | Using the Kelvin-Voigt model for nanoindentation creep in Sn-C/PVDF nanocomposites | S. A. Hackney K. E. Aifantis A. Tangtrakarn S. Shrivastava |
2012 |
MATERIALS SCIENCE AND TECHNOLOGY 9-10 (28.0), pp. 1161.0-1166.0 |
4 | 0 | 0 | 0 | 0 | 0 | 4 | |
2. | A new sol-gel precursor for preparation of La0.56Sr0.42Co0.2Fe0.8O3-delta film | S. Promsuy A. Tangtrakarn C. Mongkolkachit S. Wanakitti V. Amornkitbamrung |
2016 |
JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY 1.0 (78.0), pp. 187.0-194.0 |
11 | 0 | 0 | 0 | 0 | 0 | 11 |
Title | Authors | Year | Journal title |
---|
ชื่อโครงการ | Authors | ประเภทโครงการ | ปีงบประมาณ | ทุนวิจับ | ||
---|---|---|---|---|---|---|
1. | ขั้วตัวเก็บประจุยิ่งยวดจากกากและจาวมะพร้าว |
ผศ.ดร. อภิโชค ตั้งตระการ |
โครงการ | 2561 | ทุนงบประมาณแผ่นดินประจำปี 2561 (งบบูรณาการวิจัยและนวัตกรรม) | |
2. | ขั้วไฟฟ้าเคมีจากถ่านกัมมันต์ของกากมะพร้าวและจาวมะพร้าวซึ่งเผาในเตาไมโครเวฟเพื่อใช้เป็นขั้วไฟฟ้าของตัวประจุยิ่งยวดและเซลล์แสงอาทิตย์สีย้อมไวแสง |
ผศ.ดร. อภิโชค ตั้งตระการ |
โครงการ | 2562 | ทุนงบประมาณแผ่นดินประจำปี 2562 (งบบูรณาการวิจัยและนวัตกรรม) |