Xinggui Yang scite author profile

Biochar is widely used for the adsorptive removal of Cd from water and soil, but the Cd-enriched biochar produced carries a risk of secondary pollution. In this work, biochar derived from rice straw was used to adsorb Cd from plating wastewater. The Cd-enriched biochar showed a saturated adsorption capacity of about 63.5 mg/g and could be recycled and used in a mesoporous carbon-supported CdS (CdS@C) photocatalyst after pyrolysis carbonization and a hydrothermal reaction. The results demonstrated that the as-prepared CdS@C photocatalyst contained mixed cubic and hexagonal CdS phases, with a considerably lower band gap (2.1 eV) than pure CdS (2.6 eV). CdS@C exhibited an enhanced photocatalytic performance for the degradation of organic dyes under visible light irradiation compared with pure CdS due to its excellent light-harvesting capacity and efficient electron-hole separation. Moreover, the continuous formation of active species (h + , q OH, and O 2 q −) was responsible for the photodegradation of organic dyes using CdS@C. This work provides new insights for the safe disposal of Cd-enriched wastewater and for improving the economic viability of Cd-contaminated resources by recovering a value-added photocatalyst.

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Enhanced in situ Pb(II) passivation by biotransformation into chloropyromorphite during sludge composting

Chen

Xing

Yang

et al. 2021

Journal of Hazardous Materials

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Extensive production and evolution of free radicals during composting

Xing

Yang

Sun

et al. 2022

Bioresource Technology

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Xinggui Yang

Enhanced in situ biodegradation of microplastics in sewage sludge using hyperthermophilic composting technology

Preparation of High-Performance CdS@C Catalyst Using Cd-Enriched Biochar Recycled From Plating Wastewater

Enhanced in situ Pb(II) passivation by biotransformation into chloropyromorphite during sludge composting

Extensive production and evolution of free radicals during composting

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