Edward Hingha Foday scite author profile

Edward Hingha Foday

3Publications

31Citation Statements Received

168Citation Statements Given

How they've been cited

How they cite others

140

166

Affiliations

Chang'an University, University of Sierra Leone

Publications

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Removal of Toxic Heavy Metals from Contaminated Aqueous Solutions Using Seaweeds: A Review

Foday

Bai

2021

Sustainability

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Heavy metal contamination affects lives with concomitant environmental pollution, and seaweed has emerged as a remedy with the ability to save the ecosystem, due to its eco-friendliness, affordability, availability, and effective metal ion removal rate. Heavy metals are intrinsic toxicants that are known to induce damage to multiple organs, especially when subjected to excess exposure. With respect to these growing concerns, this review presents the preferred sorption material among the many natural sorption materials. The use of seaweeds to treat contaminated solutions has demonstrated outstanding results when compared to other materials. The sorption of metal ions using dead seaweed biomass offers a comparative advantage over other natural sorption materials. This article summarizes the impact of heavy metals on the environment, and why dead seaweed biomass is regarded as the leading remediation material among the available materials. This article also showcases the biosorption mechanism of dead seaweed biomass and its effectiveness as a useful, cheap, and affordable bioremediation material.

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Mangifera indica Leaf (MIL) as a Novel Material in Atmospheric Water Collection

Foday

Bai

2022

ACS Omega

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Here, Mangifera indica leaves (MILs) have been used to collect atmospheric water for the first time. This novel material has been viewed by mankind as environmental waste and is mostly discarded or incinerated, causing environmental pollution. By turning waste into wealth, MILs have proven resourceful and can help ameliorate the water crisis, especially in tropical countries. The unprecedented water collection result is enough to describe MILs as an ideal material for atmospheric water collection when compared to other natural plants. Both the physical and chemical surface morphologies were extensively characterized. This comparative study shows that MIL surface droplet termination and hydrophilic nature differ from those of other materials, with the apex playing a key role in the roll-off of the droplet. The surface wettability and its interaction with the droplet are of keen interest in this study.

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Impact of COVID-19 Pandemic Outbreak: CO2 and SO2 Emission Reduction over China

Nsabimana¹,

Foday²

2020

OALib

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