New Analytical Approaches for Effective Quantification and Identification of Nanoplastics in Environmental Samples
Processes2021
31 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 50
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Weiqian Wang
Christian Ebere Enyoh,
Qingyue Wang,
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Tanzin Chowdhury,
Tanzin Chowdhury,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Kai Xiao,
Senlin Lü,
Christian Ebere Enyoh,
Weiqian Wang
Tanzin Chowdhury,
Christian Ebere Enyoh,
Qingyue Wang,
Christian Ebere Enyoh,
Qingyue Wang,
Weiqian Wang
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Tanzin Chowdhury,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Tanzin Chowdhury,
Qingyue Wang,
Weiqian Wang
Qingyue Wang,
Weiqian Wang
Christian Ebere Enyoh,
Weiqian Wang
Qingyue Wang,
Christian Ebere Enyoh,
Weiqian Wang
Weiqian Wang
Weiqian Wang
Weiqian Wang
Weiqian Wang
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Senlin Lü,
Senlin Lü,
Senlin Lü,
Senlin Lü,
Senlin Lü,
Senlin Lü,
Kai Xiao,
Tanzin Chowdhury,
Senlin Lü,
Kai Xiao,
Qingyue Wang,
Qingyue Wang,
Weiqian Wang
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Qingyue Wang,
Md. Akhter Hossain Chowdhury,
Weiqian Wang
Md. Akhter Hossain Chowdhury,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Md. Akhter Hossain Chowdhury,
Tanzin Chowdhury,
Tanzin Chowdhury,
Christian Ebere Enyoh,
Kai Xiao,
Kai Xiao,
Tanzin Chowdhury,
Md. Akhter Hossain Chowdhury,
Christian Ebere Enyoh,
Qingyue Wang,
Md. Akhter Hossain Chowdhury,
Senlin Lü,
Senlin Lü,
Tanzin Chowdhury,
Tanzin Chowdhury,
Md. Akhter Hossain Chowdhury,
Tanzin Chowdhury,
Christian Ebere Enyoh,
Kai Xiao,
Qingyue Wang,
Weiqian Wang
Weiqian Wang
Summary
This review assessed new analytical approaches for quantifying and identifying nanoplastics in environmental samples, highlighting fundamental challenges in detection due to their small size and the need for improved methods to understand nanoplastic contamination levels.
Nanoplastics (NPs) are a rapidly developing subject that is relevant in environmental and food research, as well as in human toxicity, among other fields. NPs have recently been recognized as one of the least studied types of marine litter, but potentially one of the most hazardous. Several studies are now being reported on NPs in the environment including surface water and coast, snow, soil and in personal care products. However, the extent of contamination remains largely unknown due to fundamental challenges associated with isolation and analysis, and therefore, a methodological gap exists. This article summarizes the progress in environmental NPs analysis and makes a critical assessment of whether methods from nanoparticles analysis could be adopted to bridge the methodological gap. This review discussed the sample preparation and preconcentration protocol for NPs analysis and also examines the most appropriate approaches available at the moment, ranging from physical to chemical. This study also discusses the difficulties associated with improving existing methods and developing new ones. Although microscopical techniques are one of the most often used ways for imaging and thus quantification, they have the drawback of producing partial findings as they can be easily mixed up as biomolecules. At the moment, the combination of chemical analysis (i.e., spectroscopy) and newly developed alternative methods overcomes this limitation. In general, multiple analytical methods used in combination are likely to be needed to correctly detect and fully quantify NPs in environmental samples.