Quantification and Ecological Risk Assessment of Colloidal Fullerenes Nanoparticles in Sediments by Ultrasonic-Assisted Pressurized Liquid Extraction and High Performance Liquid Chromatography.

Nokwanda Hendricks,Olatunde Stephen Olatunji,Bhekumuzi Prince Gumbi

doi:10.3390/nano11123319

Nokwanda Hendricks, Olatunde Stephen Olatunji + Show 1 more

Open Access

https://doi.org/10.3390/nano11123319

Copy DOI

Journal: Nanomaterials	Publication Date: Dec 7, 2021
Citations: 4	License type: CC BY 4.0

Affiliation: University of KwaZulu-Natal

Abstract

Fullerenes engineered nanomaterials are regarded as emerging environmental contaminants. This is as their widespread application in many consumer products, as well as natural release, increases their environmental concentration. In this work, an ultrasonic-assisted pressurized liquid extraction (UAPLE) method followed by high performance liquid chromatography with ultraviolet-visible detector (HPLC-UV-vis) was developed for extraction and determination of fullerene in sediments. The method was validated and found to be suitable for environmental risk assessment. Thereafter, the method was used for the determination of fullerene (C61-PCBM) in sediment samples collected from Umgeni River, South Africa. The current method allows for adequate sensitivity within the linear range of 0.01–4 µg g−1, method limit detection of 0.0094 µg g−1 and recoveries ranged between 67–84%. All the parameters were determined from fortified sediments samples. The measured environmental concentration (MEC) of fullerene in the sediment samples ranged from not detected to 30.55 µg g−1. To the best of our knowledge, this is the first report on the occurrence and ecological risk assessment of carbonaceous fullerene nanoparticles in African sediments and biosolids.

Highlights

Engineered nanomaterials including fullerenes have found broad applications in most consumable and hardware products globally, due to their ready availability and affordability
The selection of suitable extraction solvent of nanoparticles from environmental matrices, such as sediments and biosolids, is an intricate task as these matrices contain a number of contaminants that might interfere with their detection and quantification
The validated ultrasonic-assisted pressurized liquid extraction (UAPLE) was applied in the determination of fullerene (C61-PCBM) in sediment samples from four river sites and two wastewater treatment plants biosolids or sludge samples

Summary

Introduction

Engineered nanomaterials including fullerenes have found broad applications in most consumable and hardware products globally, due to their ready availability and affordability. Residues of fullerene emanating from the use and application of fullerene containing products have led to their presence in the environment [1]. The fate and ecological risk fullerene pose to the environment is not clearly understood, has been reported that fullerenes containing the C60 colloidal aggregates form could interact with biological systems in aqueous environment [2,3,4]. The toxicities of fullerenes suspensions and their derivatives in water is dependent on the mechanisms of biological interaction. The fate and effects of fullerenes and other engineered carbonaceous nanomaterials are of emerging concerns, especially due to their suggested toxic and health risks to the environment [5]

Objectives

Methods

Results

Discussion

Conclusion