BibBase https://bibbase.org/f/HnQC7A6C8WxhqExKR/MTE_Tanongsak

2026 (2)

Hydrometallurgical Valorization of Strontium Ferrite Magnet Sludge for the Selective Production of High-Purity Hematite ($α$-Fe2O3) and Strontium Carbonate (SrCO3). Longbutsri, C.; Yingnakorn, T.; Kansomket, C.; Chandakhiaw, T.; Somla, S.; Ma-Ud, N.; Rabeea, M. A; and Khumkoa, S. Current Research in Green and Sustainable Chemistry,100507. 2026.
link bibtex

@article{longbutsri2026hydrometallurgical,
  title={Hydrometallurgical Valorization of Strontium Ferrite Magnet Sludge for the Selective Production of High-Purity Hematite ($\alpha$-Fe2O3) and Strontium Carbonate (SrCO3)},
  author={Longbutsri, Chaiyasit and Yingnakorn, Tanongsak and Kansomket, Chatisa and Chandakhiaw, Thanapon and Somla, Sirunya and Ma-Ud, Natthicha and Rabeea, Muwafaq A and Khumkoa, Sakhob},
  journal={Current Research in Green and Sustainable Chemistry},
  pages={100507},
  year={2026},
  publisher={Elsevier}
}

Hydrothermal synthesis of ZnO nanoparticles from recycled ZnO obtained from electric Arc furnace dust: morphology control and applications. Somla, S.; Yingnakorn, T.; Chandakhiaw, T.; Longbutsri, C.; Sriklang, L.; and Khumkoa, S. Scientific Reports. 2026.
link bibtex

@article{somla2026hydrothermal,
  title={Hydrothermal synthesis of ZnO nanoparticles from recycled ZnO obtained from electric Arc furnace dust: morphology control and applications},
  author={Somla, Sirunya and Yingnakorn, Tanongsak and Chandakhiaw, Thanapon and Longbutsri, Chaiyasit and Sriklang, Loeslakkhana and Khumkoa, Sakhob},
  journal={Scientific Reports},
  year={2026},
  publisher={Nature Publishing Group UK London}
}

2025 (7)

Rapid sonochemical synthesis of Fe3O4@ AC from waste rubber tires to use for azo dye removal. Al-Bassam, A. Z.; Rabeea, M. A.; Sarhan, A. A; Toohi, H. T. A.; and Yingnakorn, T. Inorganic Chemistry Communications, 174: 113968. 2025.
link bibtex

@article{al2025rapid,
  title={Rapid sonochemical synthesis of Fe3O4@ AC from waste rubber tires to use for azo dye removal},
  author={Al-Bassam, Ahmed ZM and Rabeea, Muwafaq Ayesh and Sarhan, Ahmed A and Toohi, Homam TS AL-Sayd and Yingnakorn, Tanongsak},
  journal={Inorganic Chemistry Communications},
  volume={174},
  pages={113968},
  year={2025},
  publisher={Elsevier}
}

Recovery of valuable metals from leached solutions of black mass through precipitation method. Wongnaree, N.; Yingnakorn, T.; Ma-Ud, N.; Sriklang, L.; and Khumkoa, S. Results in Engineering, 25: 104190. 2025.
link bibtex

@article{wongnaree2025recovery,
  title={Recovery of valuable metals from leached solutions of black mass through precipitation method},
  author={Wongnaree, Natcha and Yingnakorn, Tanongsak and Ma-Ud, Natthicha and Sriklang, Loeslakkhana and Khumkoa, Sakhob},
  journal={Results in Engineering},
  volume={25},
  pages={104190},
  year={2025},
  publisher={Elsevier}
}

Catalyst coated membranes for fuel cell and water electrolyser delamination induced by organic solution soaking and water ultrasonication. Yingnakorn, T.; Hartley, J.; Keal, M. E; Gordon, R.; Florido, D. M.; Abbott, A. P; and Yang, J. M RSC Sustainability, 3(4): 1900–1908. 2025.
link bibtex

@article{yingnakorn2025catalyst,
  title={Catalyst coated membranes for fuel cell and water electrolyser delamination induced by organic solution soaking and water ultrasonication},
  author={Yingnakorn, Tanongsak and Hartley, Jennifer and Keal, Molly E and Gordon, Ross and Florido, Daniel Marin and Abbott, Andrew P and Yang, Jake M},
  journal={RSC Sustainability},
  volume={3},
  number={4},
  pages={1900--1908},
  year={2025},
  publisher={Royal Society of Chemistry}
}

Fast delamination of fuel cell Catalyst-Coated membranes using High-Intensity ultrasonication. Yingnakorn, T.; Gordon, R.; Florido, D. M.; Elgar, C. E; Jacobson, B.; Li, S.; Prentice, P.; Abbott, A. P; and Yang, J. M Ultrasonics Sonochemistry, 116: 107330. 2025.
link bibtex

@article{yingnakorn2025fast,
  title={Fast delamination of fuel cell Catalyst-Coated membranes using High-Intensity ultrasonication},
  author={Yingnakorn, Tanongsak and Gordon, Ross and Florido, Daniel Marin and Elgar, Christopher E and Jacobson, Ben and Li, Shida and Prentice, Paul and Abbott, Andrew P and Yang, Jake M},
  journal={Ultrasonics Sonochemistry},
  volume={116},
  pages={107330},
  year={2025},
  publisher={Elsevier}
}

Upcycling of Cupric Chloride Waste Solution from PCB Manufacturing for Antibacterial Copper Nanoparticles. Patcharawit, T.; Kansomket, C.; Mahiwan, N.; Chailoi, S.; Chandakhiaw, T.; Yingnakorn, T.; Tunnukij, T.; and Khumkoa, S. Recycling, 10(3): 97. 2025.
link bibtex

@article{patcharawit2025upcycling,
  title={Upcycling of Cupric Chloride Waste Solution from PCB Manufacturing for Antibacterial Copper Nanoparticles},
  author={Patcharawit, Tapany and Kansomket, Chatisa and Mahiwan, Napat and Chailoi, Sumita and Chandakhiaw, Thanapon and Yingnakorn, Tanongsak and Tunnukij, Teerawut and Khumkoa, Sakhob},
  journal={Recycling},
  volume={10},
  number={3},
  pages={97},
  year={2025},
  publisher={MDPI}
}

Tin oxide nanoparticle extraction from waste solder dross via low-temperature hydrometallurgical process. YINGNAKORN, T.; SOMLA, S.; CHANDAKHIAW, T.; CHEUNG, E.; and KHUMKOA, S. Journal of Metals, Materials and Minerals, 35(2): e2185–e2185. 2025.
link bibtex

@article{yingnakorn2025tin,
  title={Tin oxide nanoparticle extraction from waste solder dross via low-temperature hydrometallurgical process},
  author={YINGNAKORN, Tanongsak and SOMLA, Sirunya and CHANDAKHIAW, Thanapon and CHEUNG, Ethan and KHUMKOA, Sakhob},
  journal={Journal of Metals, Materials and Minerals},
  volume={35},
  number={2},
  pages={e2185--e2185},
  year={2025}
}

Recycling Of Laminar Materials Used In Energy Storage Devices. Yingnakorn, T. Ph.D. Thesis, University of Leicester, 2025.
link bibtex

@phdthesis{yingnakorn2025recycling,
  title={Recycling Of Laminar Materials Used In Energy Storage Devices},
  author={Yingnakorn, Tanongsak},
  year={2025},
  school={University of Leicester}
}

2024 (2)

Leaching kinetics of valuable metals from calcined material of spent lithium-ion batteries. Wongnaree, N.; Patcharawit, T.; Yingnakorn, T.; and Khumkoa, S. ACS omega, 9(47): 46822–46833. 2024.
link bibtex

@article{wongnaree2024leaching,
  title={Leaching kinetics of valuable metals from calcined material of spent lithium-ion batteries},
  author={Wongnaree, Natcha and Patcharawit, Tapany and Yingnakorn, Tanongsak and Khumkoa, Sakhob},
  journal={ACS omega},
  volume={9},
  number={47},
  pages={46822--46833},
  year={2024},
  publisher={American Chemical Society}
}

Tin, silver, and copper sulfate compound extraction from lead-free solder dross by reduction with petroleum coke, electrorefining, cementation, and crystallization process. KHUMKOA, S.; Natthicha, M.; PATCHARAWIT, T.; and YINGNAKORN, T. Journal of Metals, Materials and Minerals, 34(4): 2007–2007. 2024.
link bibtex

@article{khumkoa2024tin,
  title={Tin, silver, and copper sulfate compound extraction from lead-free solder dross by reduction with petroleum coke, electrorefining, cementation, and crystallization process},
  author={KHUMKOA, Sakhob and Natthicha, MA-UD and PATCHARAWIT, Tapany and YINGNAKORN, Tanongsak},
  journal={Journal of Metals, Materials and Minerals},
  volume={34},
  number={4},
  pages={2007--2007},
  year={2024}
}

2023 (2)

Direct re-lithiation strategy for spent lithium iron phosphate battery in Li-based eutectic using organic reducing agents. Yingnakorn, T.; Hartley, J.; Terreblanche, J. S; Lei, C.; Dose, W. M; and Abbott, A. P RSC Sustainability, 1(9): 2341–2349. 2023.
link bibtex

@article{yingnakorn2023direct,
  title={Direct re-lithiation strategy for spent lithium iron phosphate battery in Li-based eutectic using organic reducing agents},
  author={Yingnakorn, Tanongsak and Hartley, Jennifer and Terreblanche, Jason S and Lei, Chunhong and Dose, Wesley M and Abbott, Andrew P},
  journal={RSC Sustainability},
  volume={1},
  number={9},
  pages={2341--2349},
  year={2023},
  publisher={Royal Society of Chemistry}
}

Designing lithium-ion batteries for recycle: The role of adhesives. Scott, S.; Islam, Z.; Allen, J.; Yingnakorn, T.; Alflakian, A.; Hathaway, J.; Rastegarpanah, A.; Harper, G. D.; Kendrick, E.; Anderson, P. A; and others Next Energy, 1(2): 100023. 2023.
link bibtex

@article{scott2023designing,
  title={Designing lithium-ion batteries for recycle: The role of adhesives},
  author={Scott, Sean and Islam, Zayd and Allen, Jack and Yingnakorn, Tanongsak and Alflakian, Ali and Hathaway, Jamie and Rastegarpanah, Alireza and Harper, Gavin DJ and Kendrick, Emma and Anderson, Paul A and others},
  journal={Next Energy},
  volume={1},
  number={2},
  pages={100023},
  year={2023},
  publisher={Elsevier}
}

2022 (4)

Hybrid recovery of copper and silver from PV ribbon and Ag finger of EOL solar panels. Patcharawit, T; Kansomket, C; Wongnaree, N; Kritsrikan, W; Yingnakorn, T; and Khumkoa, S Int. J. Power Energy Eng, 16(6). 2022.
link bibtex

@article{patcharawit2022hybrid,
  title={Hybrid recovery of copper and silver from PV ribbon and Ag finger of EOL solar panels},
  author={Patcharawit, T and Kansomket, C and Wongnaree, N and Kritsrikan, W and Yingnakorn, T and Khumkoa, S},
  journal={Int. J. Power Energy Eng},
  volume={16},
  number={6},
  year={2022}
}

Recovery of nickel from spent electroplating solution by hydrometallurgical and electrometallurgical process. LAOKHEN, P.; Natthicha, M.; YINGNAKORN, T.; PATCHARAWIT, T.; and KHUMKOA, S. Journal of Metals, Materials and Minerals, 32(2): 95–100. 2022.
link bibtex

@article{laokhen2022recovery,
  title={Recovery of nickel from spent electroplating solution by hydrometallurgical and electrometallurgical process},
  author={LAOKHEN, Piamsak and Natthicha, MA-UD and YINGNAKORN, Tanongsak and PATCHARAWIT, Tapany and KHUMKOA, Sakhob},
  journal={Journal of Metals, Materials and Minerals},
  volume={32},
  number={2},
  pages={95--100},
  year={2022}
}

Extraction of molybdenum from a spent HDS catalyst using alkali leaching reagent. KANSOMKET, C.; LAOKHEN, P.; YINGNAKORN, T.; PATCHARAWIT, T.; and KHUMKOA, S. Journal of Metals, Materials and Minerals, 32(2): 88–94. 2022.
link bibtex

@article{kansomket2022extraction,
  title={Extraction of molybdenum from a spent HDS catalyst using alkali leaching reagent},
  author={KANSOMKET, Chatisa and LAOKHEN, Piamsak and YINGNAKORN, Tanongsak and PATCHARAWIT, Tapany and KHUMKOA, Sakhob},
  journal={Journal of Metals, Materials and Minerals},
  volume={32},
  number={2},
  pages={88--94},
  year={2022}
}

Comparative study of manufacturing NdFeB magnet wastes recycling: oxidative roasting-selective leaching and whole leaching routes. Patcharawit, T.; Kritsarikan, W.; Yingnakorn, T.; and Khumkoa, S. Recycling, 7(5): 68. 2022.
link bibtex

@article{patcharawit2022comparative,
  title={Comparative study of manufacturing NdFeB magnet wastes recycling: oxidative roasting-selective leaching and whole leaching routes},
  author={Patcharawit, Tapany and Kritsarikan, Woranittha and Yingnakorn, Tanongsak and Khumkoa, Sakhob},
  journal={Recycling},
  volume={7},
  number={5},
  pages={68},
  year={2022},
  publisher={MDPI}
}

2020 (3)

Study on Microstructure Transformation of High Strength Hot Rolled Steel by Using Finite Element Simulation. Thongnak, S.; Yingnakorn, T.; Sriklang, L.; and Khumkoa, S. In Materials Science Forum, volume 1009, pages 95–100, 2020. Trans Tech Publications Ltd
link bibtex

@inproceedings{thongnak2020study,
  title={Study on Microstructure Transformation of High Strength Hot Rolled Steel by Using Finite Element Simulation},
  author={Thongnak, Siam and Yingnakorn, Tanongsak and Sriklang, Loeslakkhana and Khumkoa, Sakhob},
  booktitle={Materials Science Forum},
  volume={1009},
  pages={95--100},
  year={2020},
  organization={Trans Tech Publications Ltd}
}

Study on Leaching of Molybdenum from a Spent HDS Catalyst. Kansomket, C.; Chandakhiaw, T.; Ma-ud, N.; Yingnakorn, T.; Patcharawit, T.; and Khumkoa, S. In Materials Science Forum, volume 1009, pages 143–148, 2020. Trans Tech Publications Ltd
link bibtex

@inproceedings{kansomket2020study,
  title={Study on Leaching of Molybdenum from a Spent HDS Catalyst},
  author={Kansomket, Chatisa and Chandakhiaw, Thanapon and Ma-ud, Natthicha and Yingnakorn, Tanongsak and Patcharawit, Tapany and Khumkoa, Sakhob},
  booktitle={Materials Science Forum},
  volume={1009},
  pages={143--148},
  year={2020},
  organization={Trans Tech Publications Ltd}
}

Study on recovery of rare earth elements from NdFeB magnet scrap by using selective leaching. Yingnakorn, T.; Laokhen, P.; Sriklang, L.; Patcharawit, T.; and Khumkoa, S. In Materials Science Forum, volume 1009, pages 149–154, 2020. Trans Tech Publications Ltd
link bibtex

@inproceedings{yingnakorn2020study,
  title={Study on recovery of rare earth elements from NdFeB magnet scrap by using selective leaching},
  author={Yingnakorn, Tanongsak and Laokhen, Piamsak and Sriklang, Loeslakkhana and Patcharawit, Tapany and Khumkoa, Sakhob},
  booktitle={Materials Science Forum},
  volume={1009},
  pages={149--154},
  year={2020},
  organization={Trans Tech Publications Ltd}
}

2019 (1)

Study on recycling of galvanic sludge containing copper for pure copper production. Ma-ud, N; Khumkoa, S; Buahombura, P; Piyawit, W; Patcharawit, T; Thongnak, S; and Yingnakorn, T Journal of Material Sciences & Engineering, 8(2169-0022). 2019.
link bibtex

@article{ma2019study,
  title={Study on recycling of galvanic sludge containing copper for pure copper production},
  author={Ma-ud, N and Khumkoa, S and Buahombura, P and Piyawit, W and Patcharawit, T and Thongnak, S and Yingnakorn, T},
  journal={Journal of Material Sciences \& Engineering},
  volume={8},
  number={2169-0022},
  year={2019}
}

undefined (4)

. Ph.D. Thesis, .
link bibtex 9 downloads

Results in Engineering. Wongnaree, N.; Yingnakorn, T.; Ma-Ud, N.; Sriklang, L.; and Khumkoa, S. . .
link bibtex

@article{wongnareeresults,
  title={Results in Engineering},
  author={Wongnaree, Natcha and Yingnakorn, Tanongsak and Ma-Ud, Natthicha and Sriklang, Loeslakkhana and Khumkoa, Sakhob}
}

Current Research in Green and Sustainable Chemistry. Longbutsri, C.; Yingnakorn, T.; Chandakhiaw, T.; Kansomket, C.; Somla, S.; Ma-Ud, N.; Rabeea, M. A; Patcharawit, T.; and Khumkoa, S. . .
link bibtex

@article{longbutsricurrent,
  title={Current Research in Green and Sustainable Chemistry},
  author={Longbutsri, Chaiyasit and Yingnakorn, Tanongsak and Chandakhiaw, Thanapon and Kansomket, Chatisa and Somla, Sirunya and Ma-Ud, Natthicha and Rabeea, Muwafaq A and Patcharawit, Tapany and Khumkoa, Sakhob}
}