铝与生物炭和氧化生物炭的相互作用：对生物炭老化过程的影响。

Interactions of aluminum with biochars and oxidized biochars: implications for the biochar aging process.

机构信息

Department of Environmental Science and Zhejiang Provincial Key Laboratory of Organic Pollution Process and Control, Zhejiang University , Hangzhou, Zhejiang 310058, China.

出版信息

J Agric Food Chem. 2014 Jan 15;62(2):373-80. doi: 10.1021/jf404624h. Epub 2014 Jan 2.

DOI:10.1021/jf404624h

PMID:24364719

Abstract

Interactions of aluminum with primary and oxidized biochars were compared to understand the changes in the adsorption properties of aged biochars. The structural characteristics of rice straw-derived biochars, before and after oxidation by HNO3/H2SO4, were analyzed by element composition, FTIR, and XPS. The adsorption of Al to primary biochars was dominated by binding to inorganic components (such as silicon particles) and surface complexation of oxygen-containing functional groups via esterification reactions. Oxidization (aging) introduced carboxylic functional groups on biochar surfaces, which served as additional binding sites for Al(3+). At pH 2.5-3.5, the Al(3+) binding was significantly greater on oxidized biochars than primary biochars. After loading with Al, the -COOH groups anchored to biochar surfaces were transformed into COO(-) groups, and the negative surface charge diminished, which indicated that Al(3+) coordinated with COO(-). Biochar is suggested as a potential adsorbent for removing Al from acidic soils.

摘要

比较了铝与原生和氧化生物炭的相互作用，以了解老化生物炭吸附性能的变化。通过元素组成、FTIR 和 XPS 分析了经 HNO3/H2SO4 氧化前后水稻秸秆衍生生物炭的结构特征。原生生物炭对 Al 的吸附主要是通过与无机成分（如硅颗粒）结合和通过酯化反应与含氧官能团的表面络合来实现的。氧化（老化）在生物炭表面引入了羧酸官能团，这些官能团成为 Al(3+)的额外结合位点。在 pH 值为 2.5-3.5 时，氧化生物炭对 Al(3+)的结合能力明显大于原生生物炭。负载 Al 后，固定在生物炭表面的-COOH 基团转化为 COO(-)基团，表面负电荷减少，表明 Al(3+)与 COO(-)配位。生物炭被认为是一种从酸性土壤中去除 Al 的潜在吸附剂。

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铝与生物炭和氧化生物炭的相互作用：对生物炭老化过程的影响。

Interactions of aluminum with biochars and oxidized biochars: implications for the biochar aging process.

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