Synergistic construction of green tea biochar supported nZVI for immobilization of lead in soil: A mechanistic investigation

Synergistic construction of green tea biochar supported nZVI for immobilization of lead in soil: A mechanistic investigation

Biochar-based nanocomposites with functional materials provide an excellent prospect in reactivity and stability. Most biochar reported have no reusability upon aging and offer the risk of release of immobilized components after short-term immobilization. To overcome this, we developed nano zero-val...

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Main Authors: Sandip Mandal, Shengyan Pu, Lixiang Shangguan, Shibin Liu, Hui Ma, Sangeeta Adhikari, Deyi Hou
Format: Article
Language:English
Published: Elsevier 2020-02-01
Series:Environment International
Online Access:http://www.sciencedirect.com/science/article/pii/S0160412019324778
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spelling doaj-e48113464b774fb49e1a8e415f6ff0822020-11-25T01:57:05ZengElsevierEnvironment International0160-41202020-02-01135Synergistic construction of green tea biochar supported nZVI for immobilization of lead in soil: A mechanistic investigationSandip Mandal0Shengyan Pu1Lixiang Shangguan2Shibin Liu3Hui Ma4Sangeeta Adhikari5Deyi Hou6State Key Laboratory of Geohazard Prevention and Geoenvironment Protection (Chengdu University of Technology), Dongsanlu, Erxianqiao, Chengdu 610059, Sichuan, PR ChinaState Key Laboratory of Geohazard Prevention and Geoenvironment Protection (Chengdu University of Technology), Dongsanlu, Erxianqiao, Chengdu 610059, Sichuan, PR China; State Key Laboratory of Environmental Criteria and Risk Assessment, Chinese Research Academy of Environmental Sciences, Beijing 100012, PR China; Corresponding author at: State Key Laboratory of Geohazard Prevention and Geoenvironment Protection (Chengdu University of Technology), Chengdu 610059, PR China.State Key Laboratory of Geohazard Prevention and Geoenvironment Protection (Chengdu University of Technology), Dongsanlu, Erxianqiao, Chengdu 610059, Sichuan, PR ChinaState Key Laboratory of Geohazard Prevention and Geoenvironment Protection (Chengdu University of Technology), Dongsanlu, Erxianqiao, Chengdu 610059, Sichuan, PR ChinaState Key Laboratory of Geohazard Prevention and Geoenvironment Protection (Chengdu University of Technology), Dongsanlu, Erxianqiao, Chengdu 610059, Sichuan, PR China; Department of Plant and Environmental Sciences, University of Copenhagen, Thorvaldsensvej 401871 Frederiksberg, DenmarkSchool of Chemical Engineering, Chonnam National University, 77, Yongbong-ro, Buk-gu, Gwangju, 61186, Republic of KoreaSchool of Environment, Tsinghua University, Beijing 100084, PR ChinaBiochar-based nanocomposites with functional materials provide an excellent prospect in reactivity and stability. Most biochar reported have no reusability upon aging and offer the risk of release of immobilized components after short-term immobilization. To overcome this, we developed nano zero-valent iron (nZVI) impregnated magnetic green tea biochar (nZVI@GTBC) and studied its performance in immobilizing Pb and long-term effectiveness in the soil. The reactive nZVI units were obtained from iron oxide solution by reducing with polyphenol solution (green tea extract) and were successively stabilized by impregnation onto the remaining green tea waste matrix through co-precipitation technique. Finally, the magnetic biochar was developed from the above nZVI impregnated green tea waste through oven drying and slow pyrolysis technique in different temperature range (150–650 °C). The synthesized nZVI@GTBC biochar was characterized and studied by XRD, FTIR, Raman, UV–Vis, TG/DSC, XPS, SEM, and TEM. The nZVI@GTBC obtained with a particle size of 130 nm and surface charge of +2.8 C/m2 at 450 °C. Moreover, colloidal stability and mobility experiments were considered to explain the transport behavior and stability of bare nZVI and magnetic nZVI@GTBC in the soil. The immobilization of Pb by pristine nZVI, GTBC, and nZVI@GTBC was compared and explained under different soil pH conditions. The bioavailability of Pb content before and after immobilization was investigated through leaching experiments. Further, thirty days of soil incubation were carried out to examine different species of Pb according to the Tessier sequential extraction scheme. The study suggested that nZVI@GTBC enhanced the immobilization efficiency by 19.38% in comparison with pristine nZVI and 57.14% in comparison with bare GTBC biochar. Keywords: Green tea polyphenols, Nano zero-valent iron, Biochar, Immobilization, Lead pollution, Soil contaminanthttp://www.sciencedirect.com/science/article/pii/S0160412019324778
collection DOAJ
language English
format Article
sources DOAJ
author Sandip Mandal
Shengyan Pu
Lixiang Shangguan
Shibin Liu
Hui Ma
Sangeeta Adhikari
Deyi Hou
spellingShingle Sandip Mandal
Shengyan Pu
Lixiang Shangguan
Shibin Liu
Hui Ma
Sangeeta Adhikari
Deyi Hou
Synergistic construction of green tea biochar supported nZVI for immobilization of lead in soil: A mechanistic investigation
Environment International
author_facet Sandip Mandal
Shengyan Pu
Lixiang Shangguan
Shibin Liu
Hui Ma
Sangeeta Adhikari
Deyi Hou
author_sort Sandip Mandal
title Synergistic construction of green tea biochar supported nZVI for immobilization of lead in soil: A mechanistic investigation
title_short Synergistic construction of green tea biochar supported nZVI for immobilization of lead in soil: A mechanistic investigation
title_full Synergistic construction of green tea biochar supported nZVI for immobilization of lead in soil: A mechanistic investigation
title_fullStr Synergistic construction of green tea biochar supported nZVI for immobilization of lead in soil: A mechanistic investigation
title_full_unstemmed Synergistic construction of green tea biochar supported nZVI for immobilization of lead in soil: A mechanistic investigation
title_sort synergistic construction of green tea biochar supported nzvi for immobilization of lead in soil: a mechanistic investigation
publisher Elsevier
series Environment International
issn 0160-4120
publishDate 2020-02-01
description Biochar-based nanocomposites with functional materials provide an excellent prospect in reactivity and stability. Most biochar reported have no reusability upon aging and offer the risk of release of immobilized components after short-term immobilization. To overcome this, we developed nano zero-valent iron (nZVI) impregnated magnetic green tea biochar (nZVI@GTBC) and studied its performance in immobilizing Pb and long-term effectiveness in the soil. The reactive nZVI units were obtained from iron oxide solution by reducing with polyphenol solution (green tea extract) and were successively stabilized by impregnation onto the remaining green tea waste matrix through co-precipitation technique. Finally, the magnetic biochar was developed from the above nZVI impregnated green tea waste through oven drying and slow pyrolysis technique in different temperature range (150–650 °C). The synthesized nZVI@GTBC biochar was characterized and studied by XRD, FTIR, Raman, UV–Vis, TG/DSC, XPS, SEM, and TEM. The nZVI@GTBC obtained with a particle size of 130 nm and surface charge of +2.8 C/m2 at 450 °C. Moreover, colloidal stability and mobility experiments were considered to explain the transport behavior and stability of bare nZVI and magnetic nZVI@GTBC in the soil. The immobilization of Pb by pristine nZVI, GTBC, and nZVI@GTBC was compared and explained under different soil pH conditions. The bioavailability of Pb content before and after immobilization was investigated through leaching experiments. Further, thirty days of soil incubation were carried out to examine different species of Pb according to the Tessier sequential extraction scheme. The study suggested that nZVI@GTBC enhanced the immobilization efficiency by 19.38% in comparison with pristine nZVI and 57.14% in comparison with bare GTBC biochar. Keywords: Green tea polyphenols, Nano zero-valent iron, Biochar, Immobilization, Lead pollution, Soil contaminant
url http://www.sciencedirect.com/science/article/pii/S0160412019324778
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