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Detection Methods
Human Health Effects
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Microplastics, an Emerging Concern: A Review of Analytical Techniques for Detecting and Quantifying Microplatics
Analytical Methods in Environmental Chemistry Journal2019
82 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
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Christian Ebere Enyoh
Andrew Wirnkor Verla,
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
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
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
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Andrew Wirnkor Verla,
Verla Evelyn Ngozi,
Christian Ebere Enyoh
Andrew Wirnkor Verla,
Christian Ebere Enyoh
Verla Evelyn Ngozi,
Verla Evelyn Ngozi,
Verla Evelyn Ngozi,
Verla Evelyn Ngozi,
Christian Ebere Enyoh
Verla Evelyn Ngozi,
Verla Evelyn Ngozi,
Andrew Wirnkor Verla,
Christian Ebere Enyoh
Verla Evelyn Ngozi,
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Andrew Wirnkor Verla,
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Christian Ebere Enyoh
Summary
This review surveyed analytical methods for detecting and quantifying microplastics published from 2000 to 2018, covering visual identification, spectroscopic, and pyrolysis-based techniques across environmental, food, and biological matrices. The authors identify the lack of standardized methods as a major barrier to generating comparable data on microplastic prevalence and health implications.
Microplastics are ubiquitous tiny plastic particles (< 5 mm) nonbiodegradable and have large surface area in the environment or the body of living things from anthropogenic activities or fragmentation of plastic debris. Though found in sea food and human body, their health implications are still speculative. A major reason for dearth of information on this topical issue is the lack of standard methods for analyzing microplastics in more complex environmental matrices. In the present review some methodologies for analyzing microplastics reported in the period 2000 to 2018 have been documented with the aim of assessing which methods is most suitable and in what matrix. The following methods have been studied: CHN analyzers, pyrolysis-gas chromatography/mass spectroscopy (PyrGC/MS), optical microscopy, fourier transform infrared microspectroscopy (Micro-FTIR), raman microspectroscopy (RMS) and scanning electron microscopy with energy dispersive x-ray spectroscopy (SEM-EDS). Studies have been conducted with often a combination of two methods; one separating and the other quantifying which can be problematic moreso in living tissue where there is no harm reported as at the time of this study. However, microplastics have become a cause for concern and advance studies are required to unravel the potential risk of their presence in our food and environment.