Teresa Fresno scite author profile

Biochar can be used as a sorbent to remove inorganic pollutants from water but the efficiency of sorption can be improved by activation or modification. This review evaluates various methods to increase the sorption efficiency of biochar including activation with steam, acids and bases and the production of biochar-based composites with metal oxides, carbonaceous materials, clays, organic compounds, and biofilms. We describe the approaches, and explain how each modification alters the sorption capacity. Physical and chemical activation enhances the surface area or functionality of biochar, whereas modification to produce biochar-based composites uses the biochar as a scaffold to embed new materials to create surfaces with novel surface properties upon which inorganic pollutants can sorb. Many of these approaches enhance the retention of a wide range of inorganic pollutants in waters, but here we provide a comparative assessment for Cd, Cu, Hg, Pb, Zn, NH, NO, PO, CrO and AsO.

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Biochar addition to an arsenic contaminated soil increases arsenic concentrations in the pore water but reduces uptake to tomato plants (Solanum lycopersicum L.)

Beesley

Marmiroli

Pagano

et al. 2013

Science of The Total Environment

244

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Assessing the combination of iron sulfate and organic materials as amendment for an arsenic and copper contaminated soil. A chemical and ecotoxicological approach

2016

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Aided phytostabilisation of As- and Cu-contaminated soils using white lupin and combined iron and organic amendments

Fresno

Moreno‐Jiménez

Zornoza

et al. 2018

Journal of Environmental Management

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Hydroponics as a valid tool to assess arsenic availability in mine soils

et al. 2010

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Teresa Fresno

Biochar modification to enhance sorption of inorganics from water

Biochar addition to an arsenic contaminated soil increases arsenic concentrations in the pore water but reduces uptake to tomato plants (Solanum lycopersicum L.)

Assessing the combination of iron sulfate and organic materials as amendment for an arsenic and copper contaminated soil. A chemical and ecotoxicological approach

Aided phytostabilisation of As- and Cu-contaminated soils using white lupin and combined iron and organic amendments

Hydroponics as a valid tool to assess arsenic availability in mine soils

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