Seoni Kim
Zitiert von
Zitiert von
Hybrid capacitive deionization to enhance the desalination performance of capacitive techniques
J Lee, S Kim, C Kim, J Yoon
Energy & Environmental Science 7 (11), 3683-3689, 2014
Lithium recovery from brine using a λ-MnO2/activated carbon hybrid supercapacitor system
S Kim, J Lee, JS Kang, K Jo, S Kim, YE Sung, J Yoon
Chemosphere 125, 50-56, 2015
TiO2 sol–gel spray method for carbon electrode fabrication to enhance desalination efficiency of capacitive deionization
C Kim, J Lee, S Kim, J Yoon
Desalination 342, 70-74, 2014
Battery Electrode Materials with Omnivalent Cation Storage for Fast and Charge‐Efficient Ion Removal of Asymmetric Capacitive Deionization
S Choi, B Chang, S Kim, J Lee, J Yoon, JW Choi
Advanced Functional Materials 28 (35), 1802665, 2018
Electrochemical lithium recovery and organic pollutant removal from industrial wastewater of a battery recycling plant
S Kim, J Kim, S Kim, J Lee, J Yoon
Environmental Science: Water Research & Technology 4 (2), 175-182, 2018
Electrochemical Lithium Recovery with a LiMn2O4–Zinc Battery System using Zinc as a Negative Electrode
S Kim, J Lee, S Kim, S Kim, J Yoon
Energy Technology 6 (2), 340-344, 2018
Review of concepts and applications of electrochemical ion separation (EIONS) process
H Yoon, J Lee, S Kim, J Yoon
Separation and Purification Technology 215, 190-207, 2019
Rapid and selective lithium recovery from desalination brine using an electrochemical system
S Kim, H Joo, T Moon, SH Kim, J Yoon
Environmental Science: Processes & Impacts 21 (4), 667-676, 2019
Hybrid electrochemical desalination system combined with an oxidation process
S Kim, C Kim, J Lee, S Kim, J Lee, J Kim, J Yoon
ACS Sustainable Chemistry & Engineering 6 (2), 1620-1626, 2018
High performance electrochemical saline water desalination using silver and silver-chloride electrodes
J Ahn, J Lee, S Kim, C Kim, J Lee, PM Biesheuvel, J Yoon
Desalination 476, 114216, 2020
Tailoring the porosity of MOF-derived N-doped carbon electrocatalysts for highly efficient solar energy conversion
JS Kang, J Kang, DY Chung, YJ Son, S Kim, S Kim, J Kim, J Jeong, ...
Journal of Materials Chemistry A 6 (41), 20170-20183, 2018
Rapid Inversion of Surface Charges in Heteroatom‐Doped Porous Carbon: A Route to Robust Electrochemical Desalination
JS Kang†, S Kim†, DY Chung, YJ Son, K Jo, X Su, MJ Lee, H Joo, ...
Advanced Functional Materials 30 (9), 1909387, 2020
Selective phosphate removal using layered double hydroxide/reduced graphene oxide (LDH/rGO) composite electrode in capacitive deionization
SP Hong, H Yoon, J Lee, C Kim, S Kim, J Lee, C Lee, J Yoon
Journal of colloid and interface science 564, 1-7, 2020
Pilot-scale demonstration of an electrochemical system for lithium recovery from the desalination concentrate
H Joo, S Kim, S Kim, M Choi, SH Kim, J Yoon
Environmental Science: Water Research & Technology 6 (2), 290-295, 2020
Evaluation of long-term stability in capacitive deionization using activated carbon electrodes coated with ion exchange polymers
K Jo, Y Baek, S Kim, SP Hong, J Yoon
Korean Journal of Chemical Engineering 37, 1199-1205, 2020
Understanding the Behaviors of λ-MnO2 in Electrochemical Lithium Recovery: Key Limiting Factors and a Route to the Enhanced Performance
S Kim†, JS Kang†, H Joo, YE Sung, J Yoon
Environmental Science & Technology, 2020
Application of a Flow-Type Electrochemical Lithium Recovery System with λ-MnO2/LiMn2O4: Experiment and Simulation
H Joo, SY Jung, S Kim, KH Ahn, WS Ryoo, J Yoon
ACS Sustainable Chemistry & Engineering 8 (26), 9622-9631, 2020
Enhancing the desalination performance of capacitive deionization using a layered double hydroxide coated activated carbon electrode
J Lee, S Kim, N Kim, C Kim, J Yoon
Applied Sciences 10 (1), 403, 2020
Electrochemical recovery of LiOH from used CO2 adsorbents
S Kim†, M Choi†, JS Kang, H Joo, BH Park, YE Sung, J Yoon
Catalysis Today, 2021
Electrochemical regeneration of free chlorine treated nickel oxide catalysts for oxidation of aqueous pollutants
S Kim, JS Kang, S Kim, S Kang, YE Sung, K Cho, J Yoon
Catalysis Today 375, 514-521, 2021
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20