Magnetic composite adsorbents of phenolic compounds with superior corrosion resistance

Maciej Fronczak , Przemysław Strachowski , Waldemar Kaszuwara , Michał Bystrzejewski

Abstract

This manuscript describes the synthesis of magnetic composite adsorbents which consist of carbon matrix and magnetic nanoparticles. The carbon matrix originated from simultaneous decomposition and activation of two different precursors, namely glucose and sucrose. KOH and ZnCl2 were used as the activating agents. The inclusion of carbon-encapsulated iron nanoparticles in the course of the synthesis process resulted in mobile composite adsorbents which can be easily separated. The structural features of carbon-encapsulated iron nanoparticles make the developed composite resistant to aggressive corrosion agents. The adsorption performance of the composites was studied in the removal of phenolic compounds from aqueous solutions.
Author Maciej Fronczak - Faculty of Chemistry (WChUW) [University of Warsaw (UW)] [University of Warsaw (UW)]
Maciej Fronczak,,
-
- Uniwersytet Warszawski
, Przemysław Strachowski - Faculty of Chemistry (WChUW) [University of Warsaw (UW)] [University of Warsaw (UW)]
Przemysław Strachowski,,
-
- Uniwersytet Warszawski
, Waldemar Kaszuwara (FMSE / DCFM)
Waldemar Kaszuwara,,
- Division of Construction and Functional Materials
, Michał Bystrzejewski - Faculty of Chemistry (WChUW) [University of Warsaw (UW)] [University of Warsaw (UW)]
Michał Bystrzejewski,,
-
- Uniwersytet Warszawski
Journal seriesSeparation Science and Technology, ISSN 0149-6395, e-ISSN 1520-5754, (N/A 40 pkt)
Issue year2019
Vol54
No14
Pages2252-2273
Publication size in sheets1.05
Keywords in EnglishAdsorption; composite; carbon encapsulated magnetic nanoparticles; phenolic compounds
ASJC Classification1500 General Chemical Engineering; 1506 Filtration and Separation; 1508 Process Chemistry and Technology; 1600 General Chemistry
DOIDOI:10.1080/01496395.2018.1543706
Languageen angielski
File
SeparSciTech.pdf 3.74 MB
Score (nominal)40
Score sourcejournalList
ScoreMinisterial score = 40.0, 30-12-2019, ArticleFromJournal
Publication indicators Scopus Citations = 0; WoS Citations = 1; Scopus SNIP (Source Normalised Impact per Paper): 2016 = 0.577; WoS Impact Factor: 2018 = 1.354 (2) - 2018=1.382 (5)
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