| # | Document title | Authors | Year | Source | Cited by |
| 1 | Electrochemical Biosensor Based on Surface Imprinting for Zika Virus Detection in Serum | Tancharoen C., Sukjee W., Thepparit C., Jaimipuk T., Auewarakul P., Thitithanyanont A., Sangma C. | 2019 | ACS Sensors,
4(1), pp. 69-75 | 116 |
| 2 | Virus MIP-composites for SARS-CoV-2 detection in the aquatic environment | Sukjee W., Thitithanyanont A., Manopwisedjaroen S., Seetaha S., Thepparit C., Sangma C. | 2022 | Materials Letters,
315, 131973 | 25 |
| 3 | Hydrogel Based-Electrochemical Gas Sensor for Explosive Material Detection | Puttasakul T., Pintavirooj C., Sangma C., Sukjee W. | 2019 | IEEE Sensors Journal,
19(19), pp. 8556-8562, 8736304 | 23 |
| 4 | Selectivity enhancement of MIP-composite sensor for explosive detection using DNT-dengue virus template: A co-imprinting approach | Tancharoen C., Sukjee W., Yenchitsomanus P.t., Panya A., Lieberzeit P.A., Sangma C. | 2021 | Materials Letters,
285, 129201 | 21 |
| 5 | Biosensors for Klebsiella pneumoniae with Molecularly Imprinted Polymer (MIP) Technique | Pintavirooj C., Vongmanee N., Sukjee W., Sangma C., Visitsattapongse S. | 2022 | Sensors,
22(12), 4638 | 18 |
| 6 | Small-Molecule Dengue Virus Co-imprinting and Its Application as an Electrochemical Sensor | Sukjee W., Tancharoen C., Yenchitsomanus P., Gleeson M., Sangma C. | 2017 | ChemistryOpen,
6(3), pp. 340-344 | 10 |
| 7 | An influenza A virus agglutination test using antibody-like polymers | Sukjee W., Thitithanyanont A., Wiboon-ut S., Lieberzeit P., Paul Gleeson M., Navakul K., Sangma C. | 2017 | Journal of Biomaterials Science, Polymer Edition,
28(15), pp. 1786-1795 | 8 |
| 8 | H5N1 virus plastic antibody based on molecularly imprinted polymers | Sangma C., Lieberzeit P., Sukjee W. | 2017 | Methods in Molecular Biology,
1575, pp. 381-388 | 7 |
| 9 | EV71 virus induced silver nanoparticles self-assembly in polymer composites with an application as virus biosensor | Sukjee W., Sangma C., Lieberzeit P.A., Ketsuwan K., Thepparit C., Chailapakul O., Ngamrojanavanich N. | 2023 | Sensors and Actuators B: Chemical,
393, 134324 | 7 |
| 10 | Molecularly Imprinted Polymer for explosive detection | Tancharoen C., Sukjee W., Sangma C., Wangchareansak T. | 2015 | ACDT 2015 - Proceedings: The 1st Asian Conference on Defence Technology,
pp. 171-174, 7111605 | 6 |
| 11 | IDE Gas Sensor Based Dengue Virus Co-imprinting for Detection of 2,4,6-Trinitrotoluene | Puttasakul T., Sukjee W., Pintavirooj C., Sangma C. | 2021 | Proceeding of the 2021 9th International Electrical Engineering Congress, iEECON 2021,
pp. 555-558, 9440379 | 4 |
| 12 | Detection of 2,4,6-Trinitrotoluene by MIP-composite Based Electrochemical Sensor | Puttasakul T., Tancharoen C., Sukjee W., Pintavirooj C., Sangma C. | 2021 | Proceeding of the 2021 9th International Electrical Engineering Congress, iEECON 2021,
pp. 559-562, 9440315 | 3 |
| 13 | Vapor-Phase Substrate Nitroreductase Reaction and its Application as TNT Electrochemical Gas Sensor | Puttasakul T., Tancharoen C., Sukjee W., Sangma C. | 2022 | IEEE Sensors Journal | 2 |
| 14 | Detection of Creatinine Using Molecularly Imprinted Polymers (MIP) Technique | Pitayataratorn T., Sukjee W., Sangma C., Visitsattapongse S. | 2022 | BMEiCON 2022 - 14th Biomedical Engineering International Conference | 1 |
| 15 | MIP-based electrochemical sensor with machine learning for accurate ZIKV detection in protein- and glucose-rich urine | Sukjee W., Sirisangsawang P., Thepparit C., Auewarakul P., Puttasakul T., Sangma C. | 2025 | Analytical Biochemistry,
702, 115854 | 0 |