Sustainable remediation of hazardous environmental pollutants using biochar-based nanohybrid materials

“…Biochar is a carbon-rich material derived from pyrolysis, gasification, or hydrothermal carbonization of a wide range of biomass including forestry and agricultural residues, food waste, animal manure, and sludge . Biochars have exhibited a few desirable characteristics, including rich oxygen functional groups and high porosity, high specific surface area (SSA), and excellent ion-exchange capacity . Owing to these advantageous properties, biochar has received much attention as a cost-effective and eco-friendly material in many emerging fields such as environmental remediation, , catalyst supports, and energy storage. − However, biochars produced by pyrolysis or hydrothermal carbonization methods usually have low SSAs.…”

“…Biochars have exhibited a few desirable characteristics, including rich oxygen functional groups and high porosity, high specific surface area (SSA), and excellent ion-exchange capacity . Owing to these advantageous properties, biochar has received much attention as a cost-effective and eco-friendly material in many emerging fields such as environmental remediation, , catalyst supports, and energy storage. − However, biochars produced by pyrolysis or hydrothermal carbonization methods usually have low SSAs. A post-treatment activation procedure is required using acid (HNO 3 and H 3 PO 4 ), base (KOH and NaOH), oxidant (H 2 O 2 ), sulfonating agent (SO 3 H), and ZnCl 2 .…”

Activation of Biochars by Waste Phosphoric Acids: An Integrated Disposal Route of Waste Acids and Solid Waste

“…Biochar is a carbon-rich material derived from pyrolysis, gasification, or hydrothermal carbonization of a wide range of biomass including forestry and agricultural residues, food waste, animal manure, and sludge . Biochars have exhibited a few desirable characteristics, including rich oxygen functional groups and high porosity, high specific surface area (SSA), and excellent ion-exchange capacity . Owing to these advantageous properties, biochar has received much attention as a cost-effective and eco-friendly material in many emerging fields such as environmental remediation, , catalyst supports, and energy storage. − However, biochars produced by pyrolysis or hydrothermal carbonization methods usually have low SSAs.…”

“…Biochars have exhibited a few desirable characteristics, including rich oxygen functional groups and high porosity, high specific surface area (SSA), and excellent ion-exchange capacity . Owing to these advantageous properties, biochar has received much attention as a cost-effective and eco-friendly material in many emerging fields such as environmental remediation, , catalyst supports, and energy storage. − However, biochars produced by pyrolysis or hydrothermal carbonization methods usually have low SSAs. A post-treatment activation procedure is required using acid (HNO 3 and H 3 PO 4 ), base (KOH and NaOH), oxidant (H 2 O 2 ), sulfonating agent (SO 3 H), and ZnCl 2 .…”

Activation of Biochars by Waste Phosphoric Acids: An Integrated Disposal Route of Waste Acids and Solid Waste

“…Due to their small size, nanomaterials show unique characteristics, such as they possess much surface area and a large surface-to-volume ratio (Hristovski et al, 2007). Such properties of nanomaterials, including carbon nanotubes (CNTs), metal organic frameworks (MOFs), nanohybrids, MXene; graphene, and metallic nanoparticles increase their applied potential in different sectors of the modern world (Bilal et al, 2020;Zhao et al, 2021;Zhang et al, 2021;Gan et al, 2022). Properties like catalytic potential and high reactivity of nanoparticles improve their adsorption capacity as a result, they become good adsorbing materials than general materials.…”

Carbon-based nanomaterials with multipurpose attributes for water treatment: Greening the 21st-century nanostructure materials deployment

Engineered Biochar-Based Nanocomposites: A Sustainable Solution for Smart Agriculture