M
Min Jang
Researcher at Kwangwoon University
Publications - 166
Citations - 6599
Min Jang is an academic researcher from Kwangwoon University. The author has contributed to research in topics: Adsorption & Catalysis. The author has an hindex of 36, co-authored 162 publications receiving 4296 citations. Previous affiliations of Min Jang include Pennsylvania State University & University of Wisconsin-Madison.
Papers
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Journal ArticleDOI
Removal of contaminants of emerging concern by membranes in water and wastewater: A review
Sewoon Kim,Kyoung Hoon Chu,Yasir A.J. Al-Hamadani,Chang Min Park,Min Jang,Dohyung Kim,Miao Yu,Jiyong Heo,Yeomin Yoon +8 more
TL;DR: In this paper, a review summarizes comprehensive recent studies on the removal of contaminants of emerging concern (CECs) by forward osmosis (FO), reverse Osmosis(RO), nanofiltration (NF), and ultrafiltration (UF) membrane treatments, and describes important information on the applications of FO, RO, NF, and UF membranes in water and wastewater (WW) treatment.
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Review of MXenes as new nanomaterials for energy storage/delivery and selected environmental applications
Byung-Moon Jun,Sewoon Kim,Jiyong Heo,Chang Min Park,Namguk Her,Min Jang,Yi Huang,Jonghun Han,Yeomin Yoon +8 more
TL;DR: A comprehensive review of recent studies on energy and environmental applications of MXene and MXene-based nanomaterials, including energy conversion and storage, adsorption, membrane, photocatalysis, and antimicrobial, can be found in this paper.
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Removal of contaminants of emerging concern by metal-organic framework nanoadsorbents: a review.
Lesley Joseph,Byung-Moon Jun,Min Jang,Chang Min Park,Juan C. Muñoz-Senmache,Arturo J. Hernández-Maldonado,Andreas Heyden,Miao Yu,Yeomin Yoon +8 more
TL;DR: In this article, a comprehensive assessment of recent studies on the removal of various contaminants of emerging concern (CECs) with different physicochemical properties by various MOF-NAs under various water quality conditions (e.g., pH, background ions/ionic strength, natural organic matter, and temperature).
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Phosphate adsorption on aluminum-impregnated mesoporous silicates: surface structure and behavior of adsorbents.
TL;DR: High phosphate adsorption capacities of the Al-impregnated mesoporous materials were attributed to not only the increase of surface hydroxyl density on Al oxide due to well-dispersed impregnation of Al components but also the decrease in stoichiometry of surface Hydroxyl ions to phosphate by the formation of monodentate surface complexes.
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Preloading hydrous ferric oxide into granular activated carbon for arsenic removal.
TL;DR: The preloading of HFO into a stable GAC media offered the opportunity to employ fixed carbon bed reactors in water treatment plants or point-of-use filters for arsenic removal, and indicated that the adsorption capacity for arsenic was closely related to the form of iron (hydr)oxide for a given iron content.