Fabrication of mesoporous lignin-based biosorbent from rice straw and its application for heavy-metal-ion removal

Lignocellulosic biomass offers the most abundant renewable resource in replacing traditional fossil resources. However, it is still a major challenge to directly convert the lignin component into value-added materials. The availability of plentiful hydroxyl groups in lignin macromolecules and its un...

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Veröffentlicht in:	Journal of environmental sciences (China) 2017-03, Vol.53 (3), p.132-140
Hauptverfasser:	Xu, Fang, Zhu, Ting-Ting, Rao, Qing-Quan, Shui, Sheng-Wen, Li, Wen-Wei, He, Hong-Bo, Yao, Ri-Sheng
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorption Cellulose - chemistry Filtration - instrumentation Kinetics Lignin Lignin - chemistry Lignocellulosic biomass Mesoporous biosorbent Metals, Heavy - chemistry Micro-thermal-explosion Models, Chemical Oryza Photoelectron Spectroscopy Rice straw Spectroscopy, Fourier Transform Infrared Sulfur trioxide
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container_title	Journal of environmental sciences (China)
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creator	Xu, Fang Zhu, Ting-Ting Rao, Qing-Quan Shui, Sheng-Wen Li, Wen-Wei He, Hong-Bo Yao, Ri-Sheng
description	Lignocellulosic biomass offers the most abundant renewable resource in replacing traditional fossil resources. However, it is still a major challenge to directly convert the lignin component into value-added materials. The availability of plentiful hydroxyl groups in lignin macromolecules and its unique three-dimensional structure make it an ideal precursor for mesoporous biosorbents. In this work, we reported an environmentally friendly and economically feasible method for the fabrication of mesoporous lignin-based biosorbent （MLBB） from lignocellulosic biomass through a SOB micro-thermal-explosion process, as a byproduct of microcrystalline cellulose. BET analysis reveal the average pore-size distribution of 5.50 nm, the average pore value of 0.35 cm3/g, and the specific surface area of 186 m2/g. The physicochemical properties of MLBB were studied by fourier transform infrared spectroscopy （FTIR）, attenuated-total-reflection fourier transform infrared spectroscopy （ATR-FTIR）, X-ray photoelectron spectroscopy （XPS）, and element analysis. These results showed that there are large amounts of sutfonic functional groups existing on the surface of this biosorbent. Pb（II） was used as a model heavy-metal-ion to demonstrate the technical feasibility for heavy-metal-ion removal. Considering that lignocellulosic biomass is a naturally abundant and renewable resource and SO3 micro-thermal-explosion is a proven technique, this biosorbent can be easily produced at large scale and become a sustainable and reliable resource for wastewater treatment.
doi_str_mv	10.1016/j.jes.2016.03.026
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However, it is still a major challenge to directly convert the lignin component into value-added materials. The availability of plentiful hydroxyl groups in lignin macromolecules and its unique three-dimensional structure make it an ideal precursor for mesoporous biosorbents. In this work, we reported an environmentally friendly and economically feasible method for the fabrication of mesoporous lignin-based biosorbent （MLBB） from lignocellulosic biomass through a SOB micro-thermal-explosion process, as a byproduct of microcrystalline cellulose. BET analysis reveal the average pore-size distribution of 5.50 nm, the average pore value of 0.35 cm3/g, and the specific surface area of 186 m2/g. The physicochemical properties of MLBB were studied by fourier transform infrared spectroscopy （FTIR）, attenuated-total-reflection fourier transform infrared spectroscopy （ATR-FTIR）, X-ray photoelectron spectroscopy （XPS）, and element analysis. These results showed that there are large amounts of sutfonic functional groups existing on the surface of this biosorbent. Pb（II） was used as a model heavy-metal-ion to demonstrate the technical feasibility for heavy-metal-ion removal. 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However, it is still a major challenge to directly convert the lignin component into value-added materials. The availability of plentiful hydroxyl groups in lignin macromolecules and its unique three-dimensional structure make it an ideal precursor for mesoporous biosorbents. In this work, we reported an environmentally friendly and economically feasible method for the fabrication of mesoporous lignin-based biosorbent （MLBB） from lignocellulosic biomass through a SOB micro-thermal-explosion process, as a byproduct of microcrystalline cellulose. BET analysis reveal the average pore-size distribution of 5.50 nm, the average pore value of 0.35 cm3/g, and the specific surface area of 186 m2/g. The physicochemical properties of MLBB were studied by fourier transform infrared spectroscopy （FTIR）, attenuated-total-reflection fourier transform infrared spectroscopy （ATR-FTIR）, X-ray photoelectron spectroscopy （XPS）, and element analysis. These results showed that there are large amounts of sutfonic functional groups existing on the surface of this biosorbent. Pb（II） was used as a model heavy-metal-ion to demonstrate the technical feasibility for heavy-metal-ion removal. Considering that lignocellulosic biomass is a naturally abundant and renewable resource and SO3 micro-thermal-explosion is a proven technique, this biosorbent can be easily produced at large scale and become a sustainable and reliable resource for wastewater treatment.</description><subject>Adsorption</subject><subject>Cellulose - chemistry</subject><subject>Filtration - instrumentation</subject><subject>Kinetics</subject><subject>Lignin</subject><subject>Lignin - chemistry</subject><subject>Lignocellulosic biomass</subject><subject>Mesoporous biosorbent</subject><subject>Metals, Heavy - chemistry</subject><subject>Micro-thermal-explosion</subject><subject>Models, Chemical</subject><subject>Oryza</subject><subject>Photoelectron Spectroscopy</subject><subject>Rice straw</subject><subject>Spectroscopy, Fourier Transform Infrared</subject><subject>Sulfur trioxide</subject><issn>1001-0742</issn><issn>1878-7320</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kM1u1DAURiMEoqXlAdggi1U3Cdd2HDtihSpakCqxoWvLPzdTj5I4Y2cG9e3xaKZdsvKVdb7PvqeqPlFoKNDu67bZYm5YGRvgDbDuTXVJlVS15AzelhmA1iBbdlF9yHkLAK0A8b66YIpLJrm8rHZ3xqbgzBriTOJAJsxxiSnuMxnDZg5zbU1GT2yIOSaL80qGFCdSMkjymsxfYmZPwpqJWZbxpWmIiTyhOTzXE65mrI93Cad4MON19W4wY8aP5_Oqerz78ef2Z_3w-_7X7feH2rWMr7V1vWiFkb7rvQSwvRGq7zg1KL1CKbxoe2N7KxGpkNJRRCa4HcBbUC1V_Kq6OfUuKe72mFc9hexwHM2MZT1NVcG6XileUHpCXYo5Jxz0ksJk0rOmoI-m9VYX0_poWgPXxXTJfD7X7-2E_jXxorYA304AliUPAZPOLuDs0IeEbtU-hv_Wfzl_6SnOm12YN68vdJL2wGnP-D8CsJvG</recordid><startdate>20170301</startdate><enddate>20170301</enddate><creator>Xu, Fang</creator><creator>Zhu, Ting-Ting</creator><creator>Rao, Qing-Quan</creator><creator>Shui, Sheng-Wen</creator><creator>Li, Wen-Wei</creator><creator>He, Hong-Bo</creator><creator>Yao, Ri-Sheng</creator><general>Elsevier B.V</general><scope>2RA</scope><scope>92L</scope><scope>CQIGP</scope><scope>W92</scope><scope>~WA</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20170301</creationdate><title>Fabrication of mesoporous lignin-based biosorbent from rice straw and its application for heavy-metal-ion removal</title><author>Xu, Fang ; 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subjects	Adsorption Cellulose - chemistry Filtration - instrumentation Kinetics Lignin Lignin - chemistry Lignocellulosic biomass Mesoporous biosorbent Metals, Heavy - chemistry Micro-thermal-explosion Models, Chemical Oryza Photoelectron Spectroscopy Rice straw Spectroscopy, Fourier Transform Infrared Sulfur trioxide
title	Fabrication of mesoporous lignin-based biosorbent from rice straw and its application for heavy-metal-ion removal
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