Experimental optimization of aurocyanide adsorption onto biomass activated carbon and re-examination of the adsorption mechanisms

John Kwame Bediako; Nicole Sharon Affrifah; Yeoung Sang Yun; Eveliina Repo

doi:10.1016/j.mineng.2025.109293

Experimental optimization of aurocyanide adsorption onto biomass activated carbon and re-examination of the adsorption mechanisms

John Kwame Bediako, Nicole Sharon Affrifah, Yeoung Sang Yun, Eveliina Repo

Department of Food Process Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Activated carbons (ACs) prepared from agricultural residues are ideal alternatives to the commercial coal-based ACs often applied in gold mining. Carbon activation using KOH produces high-quality carbons with good textural properties. Herein, fruit peel ACs were synthesized via KOH activation and evaluated for aurocyanide adsorption. The yield and adsorption capacity were optimized through a central composite design. The Langmuir maximum equilibrium uptake was 186.95 ± 16.44 mg/g. Re-examination of the adsorption mechanisms revealed that the presence of micro and mesopores, coupled with electrostatic binding, π–π interaction and ion-pair formations influenced the significantly high adsorption capacity. This study could be useful in the syntheses and application of agro waste-derived ACs as alternative adsorbents for gold recovery from aurocyanide leachates.

Original language	English
Article number	109293
Journal	Minerals Engineering
Volume	227
DOIs	https://doi.org/10.1016/j.mineng.2025.109293
Publication status	Published - 15 Jul 2025

Keywords

Activated carbon
Aurocyanide
Biomass
Ion pair
KOH activation
Mechanism

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10.1016/j.mineng.2025.109293

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title = "Experimental optimization of aurocyanide adsorption onto biomass activated carbon and re-examination of the adsorption mechanisms",

abstract = "Activated carbons (ACs) prepared from agricultural residues are ideal alternatives to the commercial coal-based ACs often applied in gold mining. Carbon activation using KOH produces high-quality carbons with good textural properties. Herein, fruit peel ACs were synthesized via KOH activation and evaluated for aurocyanide adsorption. The yield and adsorption capacity were optimized through a central composite design. The Langmuir maximum equilibrium uptake was 186.95 ± 16.44 mg/g. Re-examination of the adsorption mechanisms revealed that the presence of micro and mesopores, coupled with electrostatic binding, π–π interaction and ion-pair formations influenced the significantly high adsorption capacity. This study could be useful in the syntheses and application of agro waste-derived ACs as alternative adsorbents for gold recovery from aurocyanide leachates.",

keywords = "Activated carbon, Aurocyanide, Biomass, Ion pair, KOH activation, Mechanism",

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doi = "10.1016/j.mineng.2025.109293",

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T1 - Experimental optimization of aurocyanide adsorption onto biomass activated carbon and re-examination of the adsorption mechanisms

AU - Bediako, John Kwame

AU - Affrifah, Nicole Sharon

AU - Yun, Yeoung Sang

AU - Repo, Eveliina

PY - 2025/7/15

Y1 - 2025/7/15

N2 - Activated carbons (ACs) prepared from agricultural residues are ideal alternatives to the commercial coal-based ACs often applied in gold mining. Carbon activation using KOH produces high-quality carbons with good textural properties. Herein, fruit peel ACs were synthesized via KOH activation and evaluated for aurocyanide adsorption. The yield and adsorption capacity were optimized through a central composite design. The Langmuir maximum equilibrium uptake was 186.95 ± 16.44 mg/g. Re-examination of the adsorption mechanisms revealed that the presence of micro and mesopores, coupled with electrostatic binding, π–π interaction and ion-pair formations influenced the significantly high adsorption capacity. This study could be useful in the syntheses and application of agro waste-derived ACs as alternative adsorbents for gold recovery from aurocyanide leachates.

AB - Activated carbons (ACs) prepared from agricultural residues are ideal alternatives to the commercial coal-based ACs often applied in gold mining. Carbon activation using KOH produces high-quality carbons with good textural properties. Herein, fruit peel ACs were synthesized via KOH activation and evaluated for aurocyanide adsorption. The yield and adsorption capacity were optimized through a central composite design. The Langmuir maximum equilibrium uptake was 186.95 ± 16.44 mg/g. Re-examination of the adsorption mechanisms revealed that the presence of micro and mesopores, coupled with electrostatic binding, π–π interaction and ion-pair formations influenced the significantly high adsorption capacity. This study could be useful in the syntheses and application of agro waste-derived ACs as alternative adsorbents for gold recovery from aurocyanide leachates.

KW - Activated carbon

KW - Aurocyanide

KW - Biomass

KW - Ion pair

KW - KOH activation

KW - Mechanism

UR - https://www.scopus.com/pages/publications/105001930304

U2 - 10.1016/j.mineng.2025.109293

DO - 10.1016/j.mineng.2025.109293

M3 - Article

AN - SCOPUS:105001930304

SN - 0892-6875

VL - 227

JO - Minerals Engineering

JF - Minerals Engineering

M1 - 109293

ER -

Experimental optimization of aurocyanide adsorption onto biomass activated carbon and re-examination of the adsorption mechanisms

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Keywords

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