Search Results - "Kim, Seoni"

Rapid Inversion of Surface Charges in Heteroatom‐Doped Porous Carbon: A Route to Robust Electrochemical Desalination by Kang, Jin Soo, Kim, Seoni, Chung, Dong Young, Son, Yoon Jun, Jo, Kyusik, Su, Xiao, Lee, Myeong Jae, Joo, Hwajoo, Hatton, T. Alan, Yoon, Jeyong, Sung, Yung‐Eun

“…Given that a considerably large population suffers from shortage of water, there are numerous on‐going efforts to turn seawater into freshwater, and…”
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Evaluation of long-term stability in capacitive deionization using activated carbon electrodes coated with ion exchange polymers by Jo, Kyusik, Baek, Youngbin, Kim, Seoni, Hong, Sung Pil, Yoon, Jeyong

“…Although capacitive deionization (CDI) is an energy-efficient and environment-friendly desalination technique, the severe performance decrease during long-term…”
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Enhancing the Desalination Performance of Capacitive Deionization Using a Layered Double Hydroxide Coated Activated Carbon Electrode by Lee, Jaehan, Kim, Seoni, Kim, Nayeong, Kim, Choonsoo, Yoon, Jeyong

“…Capacitive deionization (CDI) is a promising desalination technology because of its simple, high energy efficient, and eco-friendly process. Among several…”
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Review of concepts and applications of electrochemical ion separation (EIONS) process by Yoon, Hansun, Lee, Jiho, Kim, Seoni, Yoon, Jeyong

“…•EIONS is conceptualized based on chemical process classification.•Operating principles is explained based on Faradaic and non-Faradaic reactions.•State of the…”
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Battery Electrode Materials with Omnivalent Cation Storage for Fast and Charge‐Efficient Ion Removal of Asymmetric Capacitive Deionization by Choi, Seungyeon, Chang, Barsa, Kim, Seoni, Lee, Jiho, Yoon, Jeyong, Choi, Jang Wook

“…Capacitive deionization (CDI) that engages porous carbon electrodes constitutes one of the well‐established energy‐efficient desalination methods. However,…”
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Lithium recovery using electrochemical technologies: Advances and challenges by Wu, Lei, Zhang, Changyong, Kim, Seoni, Hatton, T. Alan, Mo, Hengliang, Waite, T. David

“…•Critical review of advances in Li recovery by electrosorption and electrodialysis.•Most pressing challenges in applying these technologies are…”
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TiO2 sol–gel spray method for carbon electrode fabrication to enhance desalination efficiency of capacitive deionization by Kim, Choonsoo, Lee, Jaehan, Kim, Seoni, Yoon, Jeyong

“…Capacitive deionization (CDI),which is an ion removal technology using electro ad/desorption, has attracted much attention as an alternative to conventional…”
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Selective phosphate removal using layered double hydroxide/reduced graphene oxide (LDH/rGO) composite electrode in capacitive deionization by Hong, Sung Pil, Yoon, Hansun, Lee, Jaehan, Kim, Choonsoo, Kim, Seoni, Lee, Jiho, Lee, Changha, Yoon, Jeyong

“…[Display omitted] Phosphate removal is a critical issue in water treatment because excess levels of phosphate can cause severe eutrophication. Capacitive…”
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Lithium recovery from brine using a λ-MnO2/activated carbon hybrid supercapacitor system by Kim, Seoni, Lee, Jaehan, Kang, Jin Soo, Jo, Kyusik, Kim, Seonghwan, Sung, Yung-Eun, Yoon, Jeyong

“…•A new electrochemical process for lithium recovery is suggested.•This process is based on a λ-MnO2/activated carbon hybrid supercapacitor system.•Lithium ions…”
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Understanding the Behaviors of λ‑MnO2 in Electrochemical Lithium Recovery: Key Limiting Factors and a Route to the Enhanced Performance by Kim, Seoni, Kang, Jin Soo, Joo, Hwajoo, Sung, Yung-Eun, Yoon, Jeyong

“…Recently developed electrochemical lithium recovery systems, whose operation principle mimics that of lithium-ion battery, enable selective recovery of lithium…”
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High performance electrochemical saline water desalination using silver and silver-chloride electrodes by Ahn, Jaewuk, Lee, Jiho, Kim, Seoni, Kim, Choonsoo, Lee, Jaehan, Biesheuvel, P.M., Yoon, Jeyong

“…Electrochemical desalination technologies such as capacitive deionization (CDI) and battery desalination (BD) are considered as promising brackish water…”
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Electrochemical Lithium Recovery with a LiMn2O4–Zinc Battery System using Zinc as a Negative Electrode by Kim, Seongsoo, Lee, Jaehan, Kim, Seoni, Kim, Seonghwan, Yoon, Jeyong

“…Securing lithium resources is an emerging issue owing to the widespread use of lithium‐ion batteries. Recently, an electrochemical lithium recovery method…”
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Electrochemical reduction of captured CO2: A route toward the integrated carbon capture and utilization by Kim, Seoni, Shin, Hyejung, Kang, Jin Soo

“…Influence of global warming and climate change caused by the increase of atmospheric CO2 concentration have become more distinct in recent years. There are…”
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Highly Selective Electrochemical Magnesium Recovery Using a Spinel-Structured Manganese Oxide by Kim, Seoni, Kang, Jin Soo, Moon, Taekyoon, Joo, Hwajoo, Lee, Chanhyeong, Sung, Yung-Eun, Yoon, Jeyong

“…Owing to the rapid growth of the global industry, the importance of securing the supply of resources has increased dramatically. Magnesium is a metallic…”
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Electrode design and performance of flow-type electrochemical lithium recovery (ELR) systems by Jung, Seon Yeop, Joo, Hwajoo, Kim, Ji Hee, Kim, Seoni, Heo, Seongmin, Yoon, Jeyong

“…Due to increasing interests in carbon neutral engineering, global market demand for lithium compounds is steadily growing, which serve as key compounds in the…”
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Redox-responsive sorbents and mediators for electrochemically based CO2 capture by Kang, Jin Soo, Kim, Seoni, Hatton, T. Alan

“…Global warming and climate change caused by an ever-increasing accumulation of atmospheric CO2 are reaching alarming levels. In order to address this issue,…”
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Surface Electrochemistry of Carbon Electrodes and Faradaic Reactions in Capacitive Deionization by Kang, Jin Soo, Kim, Seoni, Kang, Jiho, Joo, Hwajoo, Jang, Junghwan, Jo, Kyusik, Park, Subin, Kim, Hyoung-il, Yoo, Sung Jong, Yoon, Jeyong, Sung, Yung-Eun, Hatton, T. Alan

“…Recent advances in electrochemical desalination techniques have paved way for utilization of saline water. In particular, capacitive deionization (CDI) enables…”
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Corrigendum to ‘Lithium Recovery using Electrochemical Technologies: Advances and Challenges’ Water Research 221 (2022) 118822 by Wu, Lei, Zhang, Changyong, Kim, Seoni, Hatton, T. Alan, Mo, Hengliang, Waite, T. David

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Corrigendum to: “Review of Concepts and Applications of Electrochemical Ion Separation (EIONS) Process” [Separation and Purification Technology, Vol. 215 (2019) 190–207] by Yoon, Hansun, Lee, Jiho, Kim, Seoni, Yoon, Jeyong

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Electrochemical Regeneration of Free Chlorine Treated Nickel Oxide Catalysts for Oxidation of Aqueous Pollutants by Kim, Seok, Kang, Jin Soo, Kim, Seoni, Kang, Seongmin, Sung, Yung-Eun, Cho, Kangwoo, Yoon, Jeyong

“…[Display omitted] •Chlorinated nickel oxide was electrochemically regenerated for catalytic oxidation.•(Energy) Efficiency was compared for intermittent and…”
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