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1. S. Pongampai, P. Pengpad, R. Meananeatra, W. Chaisriratanakul, A. Poyai, M. Horprathum, et al., "Sensing layer combination of vertically aligned ZnO nanorods and graphene oxide for ultrahigh sensitivity IDE capacitive humidity sensor," IEEJ Transactions on Electrical and Electronic Engineering, vol. 15, pp. 965-975, 2020/06/01 2020 ISI: Q4: Impact factor: 0.668
2. Pongampai S, Pakawanit P, Charoonsuk T, Vittayakorn N. “Low-cost Fabrication of the Highly Efficient Triboelectric Nanogenerator by Designing a 3D Multi-Layer Origami Structure Combined with Self-Charged Pumping Module”. Nano Energy. 2021:106629. ISI: Q1: Impact factor: 17.881
3. S. Pongampai, T. Charoonsuk, N. Pinpru, P. Pulphol, W. Vittayakorn, P. Pakawanit, et al., "Triboelectric-piezoelectric hybrid nanogenerator based on BaTiO3-Nanorods/Chitosan enhanced output performance with self-charge-pumping system," Composites Part B: Engineering, vol. 208, p. 108602, 2021/03/01/ 2021 ISI: Q1: Impact factor: 7.6
4. Pongampai, S., Charoonsuk, T., Pinpru, N., Muanghlua, R., Vittayakorn, W., and Vittayakorn, N.: ‘High Performance Flexible Tribo/Piezoelectric Nanogenerators based on BaTiO3/Chitosan Composites’, Integrated Ferroelectrics, 2022, 223, (1), pp. 137-151. ISI: Q4: Impact factor: 0.836
5. T. Charoonsuk, R. Muanghlua, S. Sriphan, S. Pongampai, and N. Vittayakorn, "Utilization of commodity thermoplastic polyethylene (PE) by enhanced sensing performance with liquid phase electrolyte for a flexible and transparent triboelectric tactile sensor," Sustainable Materials and Technologies, vol. 27, p. e00239, 2021/04/01/ 2021. ISI: Q1: Impact factor: 7.053
6. Charoonsuk T, Pongampai S, Pakawanit P, Vittayakorn N. “Achieving a highly efficient chitosan-based triboelectric nanogenerator via adding organic proteins: Influence of morphology and molecular structure.” Nano Energy. 2021; 89:106430. ISI: Q1: Impact factor: 17.881
7. Pharino U, Sinsanong Y, Pongampai S, Charoonsuk T, Pakawanit P, Sriphan S, et al. Influence of pore morphologies on the mechanical and tribo-electrical performance of polydimethylsiloxane sponge fabricated via commercial seasoning templates. Radiation Physics and Chemistry. 2021;189:109720. ISI: Q3: Impact factor: 2.858
8. Pakawanit, P., Pharino, U., Charoonsuk, T., Sriphan, S., Pongampai, S., and Vittayakorn, N.: ‘Simple Fabrication of Porous 3D Substrate Polydimethylsiloxane (PDMS) Composited with Polyvinylidene Fluoride-co-Hexafluoropropylene (PVDF-HFP) for Triboelectric Nanogenerator’, Integrated Ferroelectrics, 2022, 222, (1), pp. 1-13. ISI: Q4: Impact factor: 0.836
9. Pharino, U., Ausaman, K., Phonimdang, K., Pongampai, S., Vittayakorn, W., Muanghua, R., Atiwongsangthong, N., Charoonsuk, T., and Vittayakorn, N.: ‘Water Repellent Modified Polyester Fabric Based Triboelectric Nanogenerator for Harvesting Human Mechanical Energies’, Integrated Ferroelectrics, 2022, 223, (1), pp. 127-136. ISI: Q4: Impact factor: 0.836
10. Pulphol, P., Pongampai, S., Charoonsuk, T., Vittayakorn, W., Muanghua, R., and Vittayakorn, N.: ‘Intrinsic Enhancement of Permittivity with Ultralow Dielectric Loss in Donor-Acceptor Co-Doped Rutile TiO2 Ceramics’, Integrated Ferroelectrics, 2022, 223, (1), pp. 152-161. ISI: Q4: Impact factor: 0.836
11. Charoonsuk T, Supansomboon S, Pakawanit P, Vittayakorn W, Pongampai S, Woramongkolchai S, et al. Simple enhanced charge density of chitosan film by the embedded ion method for the flexible triboelectric nanogenerator. Carbohydrate Polymers. 2022; 297: 120070 ISI: Q1: Impact factor: 1.61
12. Pulphol P, Vittayakorn W, Bongkarn T, Kolodiazhnyi T, Pongampai S, Maluangnont T, et al. The tuning of temperature stability in ultralow loss (Ba/Sr) zirconate microwave dielectric. Ferroelectrics. 2022; 601(1):59-69. ISI: Q4: Impact factor: 0.21
13. Noisak J, Charoonsuk T, Pongampai S, Pinpru N, Pakawanit P, Vittayakorn W, et al. Towards the Preparation of Organic Ferroelectric Composites: Fabrication of a Gamma-Glycine-Bacterial Cellulose Composite via Cold Sintering Process. Journal of Materials Research and Technology. 2023. ISI: Q1: Impact factor: 6.4
14. Maluangnont T, Kwamman T, Pulphol P, Pongampai S, Charoonsuk T, Pakawanit P, et al. Structural, optical, and electrical properties of cellulose/titanate nanosheets composite with enhanced protection against gamma irradiation. Ceramics International. 2023;49(19):31862-70. ISI: Q1: Impact factor: 5.2
15. Pongampai S, Pakawanit P, Charoonsuk T, Hajra S, Kim HJ, Vittayakorn N. Design and Optimization of Miura-Origami-Inspired Structure for High-Performance Self-Charging Hybrid Nanogenerator. Journal of Science: Advanced Materials and Devices. 2023:100618. ISI: Q1: Impact factor: 8.0
16. S. Ukasi, S. Pongampai, B.K. Panigrahi, S. Panda, S. Hajra, H.J. Kim, N. Vittayakorn, T. Charoonsuk, Continuous Tremor Monitoring in Parkinson's Disease: A Wristwatch-inspired Triboelectric Sensor Approach, iScience, DOI 10.1016/j.isci.2024.111480. ISI: Q1: Impact factor: 4.6
17. K. Saichompoo, W. Kingkam, S. Issarapanacheewin, S. Ukasi, S. Pongampai, P. Pakawanit, P. Limsuwan, N. Vittayakorn, T. Charoonsuk, Effective rare-earth dielectric addition and gamma ray irradiation for achieving highly efficient PDMS triboelectric nanogenerator, Radiation Physics and Chemistry, 227 (2025) 112330 Q3: Impact factor: 2.8
18. T. Charoonsuk, S. Ukasi, P. Mokthaisong, P. Khuntakaew, S. Hajra, H.J. Kim, R. Muanghlua, W. Vittayakorn, S. Pongampai, N. Vittayakorn, Acidic dynamics: Unveiling mechanistic insights for improved performance in chitosan triboelectric nanogenerators, Cellulose, 31 (2024) 6453-6470. Q1: Impact factor: 4.9
19. P. Mohsom, N. Suktep, S. Pongampai, P. Pakawanit, Te-Wei Chiu, T. Maluangnont, N. Vittayakorn, T. Charoonsuk, Advanced Composite Triboelectric Nanogenerator from Bacterial Cellulose and MgAl-LDH Nanosheets: Synthesis, Performance, and Mechanistic insight, https://doi.org/10.21203/rs.3.rs-4416171/v1.
20. S. Ukasi, P. Jutapukti, C. Ninthub, N. Pinpru, P. Pakawanit, W. Vittayakorn, S. Pongampai, N. Vittayakorn, T. Charoonsuk, Gamma glycine enhances efficiency of organic hybrid piezoelectric-triboelectric nanogenerators, Nano Energy, 119 (2024) 109045. Q1: Impact factor: 16.8
21. N. Suktep, S. Pongampai, P. Pakawanit, J. Noisak, T. Bongkarn, T. Charoonsuk, N. Vittayakorn, Silk Fibroin/Amino Acid Hybrid Organic Piezoelectric-Triboelectric Nanogenerator, Integrated Ferroelectrics, 238 (2023) 101-114. Q4: Impact factor: 0.7
22. K. Chaithaweep, T. Boontanoom, C. Onsup, U. Pharino, S. Pongampai, W. Vittayakorn, T. Maluangnont, N. Vittayakorn, Bacterial Cellulose/Titanate Nanotubes Composite Kirigami for Flexible and Stretchable Motion Sensor, Integrated Ferroelectrics, 238 (2023) 115-124. Q4: Impact factor: 0.7
23. R. Khwanming, S. Pongampai, N. Vittayakorn, T. Charoonsuk, Cellulose-based fabrics triboelectric nanogenerator: Effect of fabric microstructure on its electrical output, Journal of Metals, Materials and Minerals, 33 (2023) 1673. Q4: Impact factor: 0.7
24. K. Chaithaweep, U. Pharino, S. Pongampai, S. Hajra, H.J. Kim, T. Charoonsuk, T. Maluangnont, S. Sriphan, N. Vittayakorn, High-Performance Droplet-Based Triboelectric Nanogenerators: A Comparison of Device Configuration and Operating Parameters, Advanced Materials Technologies 10(9) (2025) 2401870. Q2: Impact factor: 6.2
25. P. Mohsom, N. Suktep, C. Sae-Tang, S. Pongampai, P. Pakawanit, T. Bongkarn, T.-W. Chiu, T. Maluangnont, T. Charoonsuk, N. Vittayakorn, Synergistic Integration of MgAl-LDH Nanosheets into Bacterial Cellulose for High-Performance Triboelectric Nanogenerators, ACS Sustainable Chemistry & Engineering 13(30) (2025) 12094–12109. Q1: Impact factor: 7.3
26. U. Pharino, K. Chaithaweep, S. Pongampai, N. Chanlek, S. Kothan, J. Kaewkhao, S. Hajra, H.J. Kim, W. Vittayakorn, S. Sriphan, N. Vittayakorn, A highly sensitive disease pre-screening approach for glycosuria: Triboelectric sensing at the liquid-solid interface, Chemical Engineering Journal 508 (2025) 160901. Q1: Impact factor: 13.2
27. S. Pongampai, K. Chaithaweep, P. Pakawanit, T. Charoonsuk, T. Bongkarn, T. Maluangnont, W. Vittayakorn, S. Hajra, H.J. Kim, N. Vittayakorn, A Kirigami-Engineered “Skeletal Framework” Composite for Ultralow Hysteresis and Highly Stable Strain Sensors, ACS Sustainable Chemistry & Engineering (2025). Q1: Impact factor: 7.3
28. S. Ukasi, K. Saichompoo, C. Sae-tang, P. Pakawanit, S. Pongampai, S. Hajra, H.J. Kim, N. Vittayakorn, T. Charoonsuk, Synergistic Piezo- and Triboelectricity in a Novel Triglycine Sulfate/Bacterial Cellulose/Chitosan Flexible Composite Nanogenerator, Small 21(32) (2025) 2503582. Q1: Impact factor: 12.1
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