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9. Jung, S, Koo B, Micheal Z. Hydrogen generation reaction catalyst electrodes, manufacturing methods, hydrogen production methods using the same, and wastewater treatment methods using the same. 2024 Dec 11; doi.org/10.8080/1020240183448 (ENG)
8. Jung, S, Tran, HVH. [PCT] Microbial electrolysis cell and hydrogen evolution method using the same. 2024 Jun 13; WO2024123124 doi.org/10.8080/1020220171159 (ENG)
7. Jung, S, Tran, HVH. Microbial electrolysis cell and hydrogen evolution method using the same. 2022 Dec 09; doi.org/10.8080/1020220171159 (ENG)
6. Jung, S, Koo, B. A hydrogen evolution reaction catalytic electrode, its manufacturing method, and the hydrogen production method by water electrolysis using it. 2021 Mar 30; doi.org/10.8080/1020210041198 (ENG) regd.
5. Jung, S, Kim E, Kang, H, Koo B. Microbial reverse-electrodialysis device with Sodium bicarbonate dissolved in electrolytes and a method of electric power generation using it. 2021 Jan 19; doi.org/10.8080/1020210007328 (ENG) regd.
4. Jung, S, Koo B. A hydrogen evolution reaction catalytic electrode, its manufacturing method, and the hydrogen production method by water electrolysis using it. 2023 Apr 25; doi.org/10.8080/1020230054128 (ENG) regd.
3. Jung, S, Koo B. Manufacturing method of active carbon-metal organic composite, active carbon-metal organic composite made by the same, and fuel cell comprising the same. 2020 Feb 11; 10-2020-0016525. doi.org/10.8080/1020200016525 (ENG) regd.
2. Yoon M, Kim W, Lee S, Jung, S. A single reactor microbial fuel cell using sediment. 2011 May 18; 10-2011-0046774. doi.org/10.8080/1020110046774 (ENG)
1. Yoon M, Kim W, Lee S, Jung, S. A single reactor microbial fuel cell using sediment. 2011 May 18; 10-2011-0046773. doi.org/10.8080/1020110046773 (ENG)
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