Engineered Carbon (biochar) Prepared by Direct Pyrolysis of Mg-accumulated Tomato Tissues: Characterization and Phosphate Removal Potential

Overview

Journal Bioresour Technol

Specialty Biophysics

Date 2013 Apr 25

PMID 23612156

Citations 22

Authors

Ying Yao

Bin Gao

Jianjun Chen

Ming Zhang

Mandu Inyang

Yuncong Li

Ashok Alva

Liuyan Yang

Affiliations

Soon will be listed here.

Abstract

An innovative method was developed to produce engineered biochar from magnesium (Mg) enriched tomato tissues through slow pyrolysis in a N2 environment. Tomato plants treated with 25mM Mg accumulated much higher level of Mg in tissue, indicating Mg can be substantially enriched in tomato plants, and pyrolysis process further concentrated Mg in the engineered biochar (8.8% Mg). The resulting Mg-biochar composites (MgEC) showed better sorption ability to phosphate (P) in aqueous solutions compared to the other four tomato leaves biochars. Statistical analysis showed a strong and significant correlation between P removal rate and biochar Mg content (R(2)=0.78, and p<0.001), indicating the enriched Mg in the engineered biochar is the main factor controlling its P removal ability. SEM-EDX, XRD and XPS analyses showed that nanoscale Mg(OH)2 and MgO particles were presented on the surface of MgEC, which serve as the main adsorption sites for aqueous P.

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