S
S. Porada
Researcher at University of Twente
Publications - 50
Citations - 7230
S. Porada is an academic researcher from University of Twente. The author has contributed to research in topics: Capacitive deionization & Membrane. The author has an hindex of 26, co-authored 44 publications receiving 5682 citations. Previous affiliations of S. Porada include Wrocław University of Technology & Leibniz Association.
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Review on the science and technology of water desalination by capacitive deionization
TL;DR: Capacitive deionization (CDI) as mentioned in this paper is a promising technology for energy-efficient water desalination using porous carbon electrodes, which is made of porous carbons optimized for salt storage capacity and ion and electron transport.
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Water desalination via capacitive deionization : What is it and what can we expect from it?
TL;DR: Capacitive deionization (CDI) is an emerging technology for the facile removal of charged ionic species from aqueous solutions, and is currently being widely explored for water desalination applications.
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Direct prediction of the desalination performance of porous carbon electrodes for capacitive deionization
S. Porada,Lars Borchardt,Martin Oschatz,Marek Bryjak,Jennifer S. Atchison,Karel J. Keesman,Stefan Kaskel,P.M. Biesheuvel,Volker Presser,Volker Presser +9 more
TL;DR: In this paper, the effect of pore size distributions on salt electrosorption capacity and salt removal rate in carbide-derived carbons has been studied experimentally and theoretically.
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Water Desalination Using Capacitive Deionization with Microporous Carbon Electrodes
TL;DR: The measured adsorption capacity for four materials tested negatively correlates with known metrics for pore structure of the carbon powders such as total pore volume and BET-area, but is positively correlated with the volume of pores of sizes <1 nm, suggesting the relevance of these sub-nanometer pores for ion adsorptive capacity.
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Theory of membrane capacitive deionization including the effect of the electrode pore space
TL;DR: An extended theory for MCDI is set up which includes in the description for the porous electrodes not only the electrostatic double layers formed inside the porous (carbon) particles, but also incorporates the role of the transport pathways in the electrode, i.e., the interparticle pore space.