Removal of arsenic, methylene blue, and phosphate by biochar/AlOOH nanocomposite

•Biochar/AlOOH nanocomposite was produced from biomass through pyrolysis.•AlOOH particles on biochar surfaces are nanosized.•Biochar matrix is mesoporous with average pore size of 50nm.•Biochar/AlOOH nanocomposite effectively removed tested contaminants. In this work, a biochar based composite mater...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 226; pp. 286 - 292
Main Authors Zhang, Ming, Gao, Bin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.06.2013
Subjects
Adsorbent
adsorbents
adsorption
AlOOH
aqueous solutions
Arsenic
Biochar
biomass
carbon
chemical engineering
Contaminants
electron microscopes
methylene blue
Nanocomposite
Nanocomposites
Nanomaterials
Nanostructure
Phosphates
pyrolysis
Sorption
sorption isotherms
Surface chemistry
X-radiation
Nanocomposite
AlOOH
Biochar
Adsorbent
Contaminants
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Abstract •Biochar/AlOOH nanocomposite was produced from biomass through pyrolysis.•AlOOH particles on biochar surfaces are nanosized.•Biochar matrix is mesoporous with average pore size of 50nm.•Biochar/AlOOH nanocomposite effectively removed tested contaminants. In this work, a biochar based composite material with AlOOH nano-flakes was fabricated from AlCl3 pretreated biomass through slow pyrolysis in a N2 environment at 600°C. Physicochemical properties of the biochar/AlOOH nanocomposite were studied systematically with several commonly used material characterization instruments, including electron microscopes and X-ray techniques. Structure and morphology analysis of the sample showed that the AlOOH particles/flakes are nanosized and uniformly grow on the carbon surface within the pores of the biochar. Laboratory batch sorption experiments were conducted to evaluate the sorption ability of the biochar/AlOOH nanocomposite to three representative aqueous contaminants: arsenic, methylene blue, and phosphate. The adsorption isotherm and adsorption kinetics data suggested that the biochar/AlOOH nanocomposite is an excellent multifunctional adsorbent that can effectively remove all these contaminants from aqueous solutions.
AbstractList In this work, a biochar based composite material with AlOOH nano-flakes was fabricated from AlCl3 pretreated biomass through slow pyrolysis in a N2 environment at 600 degree C. Physicochemical properties of the biochar/AlOOH nanocomposite were studied systematically with several commonly used material characterization instruments, including electron microscopes and X-ray techniques. Structure and morphology analysis of the sample showed that the AlOOH particles/flakes are nanosized and uniformly grow on the carbon surface within the pores of the biochar. Laboratory batch sorption experiments were conducted to evaluate the sorption ability of the biochar/AlOOH nanocomposite to three representative aqueous contaminants: arsenic, methylene blue, and phosphate. The adsorption isotherm and adsorption kinetics data suggested that the biochar/AlOOH nanocomposite is an excellent multifunctional adsorbent that can effectively remove all these contaminants from aqueous solutions.
In this work, a biochar based composite material with AlOOH nano-flakes was fabricated from AlCl₃ pretreated biomass through slow pyrolysis in a N₂ environment at 600°C. Physicochemical properties of the biochar/AlOOH nanocomposite were studied systematically with several commonly used material characterization instruments, including electron microscopes and X-ray techniques. Structure and morphology analysis of the sample showed that the AlOOH particles/flakes are nanosized and uniformly grow on the carbon surface within the pores of the biochar. Laboratory batch sorption experiments were conducted to evaluate the sorption ability of the biochar/AlOOH nanocomposite to three representative aqueous contaminants: arsenic, methylene blue, and phosphate. The adsorption isotherm and adsorption kinetics data suggested that the biochar/AlOOH nanocomposite is an excellent multifunctional adsorbent that can effectively remove all these contaminants from aqueous solutions.
•Biochar/AlOOH nanocomposite was produced from biomass through pyrolysis.•AlOOH particles on biochar surfaces are nanosized.•Biochar matrix is mesoporous with average pore size of 50nm.•Biochar/AlOOH nanocomposite effectively removed tested contaminants. In this work, a biochar based composite material with AlOOH nano-flakes was fabricated from AlCl3 pretreated biomass through slow pyrolysis in a N2 environment at 600°C. Physicochemical properties of the biochar/AlOOH nanocomposite were studied systematically with several commonly used material characterization instruments, including electron microscopes and X-ray techniques. Structure and morphology analysis of the sample showed that the AlOOH particles/flakes are nanosized and uniformly grow on the carbon surface within the pores of the biochar. Laboratory batch sorption experiments were conducted to evaluate the sorption ability of the biochar/AlOOH nanocomposite to three representative aqueous contaminants: arsenic, methylene blue, and phosphate. The adsorption isotherm and adsorption kinetics data suggested that the biochar/AlOOH nanocomposite is an excellent multifunctional adsorbent that can effectively remove all these contaminants from aqueous solutions.
Author Gao, Bin
Zhang, Ming
Author_xml – sequence: 1
  givenname: Ming
  surname: Zhang
  fullname: Zhang, Ming
– sequence: 2
  givenname: Bin
  surname: Gao
  fullname: Gao, Bin
  email: bg55@ufl.edu
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Snippet •Biochar/AlOOH nanocomposite was produced from biomass through pyrolysis.•AlOOH particles on biochar surfaces are nanosized.•Biochar matrix is mesoporous with...
In this work, a biochar based composite material with AlOOH nano-flakes was fabricated from AlCl₃ pretreated biomass through slow pyrolysis in a N₂ environment...
In this work, a biochar based composite material with AlOOH nano-flakes was fabricated from AlCl3 pretreated biomass through slow pyrolysis in a N2 environment...
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SubjectTerms Adsorbent
adsorbents
adsorption
AlOOH
aqueous solutions
Arsenic
Biochar
biomass
carbon
chemical engineering
Contaminants
electron microscopes
methylene blue
Nanocomposite
Nanocomposites
Nanomaterials
Nanostructure
Phosphates
pyrolysis
Sorption
sorption isotherms
Surface chemistry
X-radiation
Title Removal of arsenic, methylene blue, and phosphate by biochar/AlOOH nanocomposite
URI https://dx.doi.org/10.1016/j.cej.2013.04.077
https://www.proquest.com/docview/1513484186
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https://www.proquest.com/docview/1709769810
Volume 226
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