Field-Portable Microplastic Sensing in Aqueous Environments: A Perspective on Emerging Techniques

Field-Portable Microplastic Sensing in Aqueous Environments: A Perspective on Emerging Techniques

Microplastics (MPs) have been found in aqueous environments ranging from rural ponds and lakes to the deep ocean. Despite the ubiquity of MPs, our ability to characterize MPs in the environment is limited by the lack of technologies for rapidly and accurately identifying and quantifying MPs. Althoug...

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Main Authors: Morgan G. Blevins, Harry L. Allen, Beckett C. Colson, Anna-Marie Cook, Alexandra Z. Greenbaum, Sheila S. Hemami, Joseph Hollmann, Ernest Kim, Ava A. LaRocca, Kenneth A. Markoski, Peter Miraglia, Vienna L. Mott, William M. Robberson, Jose A. Santos, Melissa M. Sprachman, Patricia Swierk, Steven Tate, Mark F. Witinski, Louis B. Kratchman, Anna P. M. Michel
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Sensors
Subjects:
microplastics
plastic pollution
sensors
analytical chemistry
environment
water
Online Access:https://www.mdpi.com/1424-8220/21/10/3532
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spelling doaj-c2fe418f52b543d28231898e7a155a782021-06-01T00:28:36ZengMDPI AGSensors1424-82202021-05-01213532353210.3390/s21103532Field-Portable Microplastic Sensing in Aqueous Environments: A Perspective on Emerging TechniquesMorgan G. Blevins0Harry L. Allen1Beckett C. Colson2Anna-Marie Cook3Alexandra Z. Greenbaum4Sheila S. Hemami5Joseph Hollmann6Ernest Kim7Ava A. LaRocca8Kenneth A. Markoski9Peter Miraglia10Vienna L. Mott11William M. Robberson12Jose A. Santos13Melissa M. Sprachman14Patricia Swierk15Steven Tate16Mark F. Witinski17Louis B. Kratchman18Anna P. M. Michel19MIT-WHOI Joint Program in Oceanography/Applied Ocean Science & Engineering, Cambridge and Woods Hole, MA 02543, USAEmergency Response Office, Superfund Division, U.S. EPA Region 9, San Francisco, CA 94105, USAMIT-WHOI Joint Program in Oceanography/Applied Ocean Science & Engineering, Cambridge and Woods Hole, MA 02543, USAKamilo, Inc., Former U.S. EPA Region 9, San Francisco, CA 94108, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USADepartment of Electrical and Computer Engineering, Northeastern University, Boston, MA 02115, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USADraper, Bioengineering Division, Cambridge, MA 02139, USAOcean P3 Systems, Former U.S. EPA Region 9, San Francisco, CA 94108, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USAThe Charles Stark Draper Laboratory Inc., Cambridge, MA 02139, USADepartment of Applied Ocean Physics and Engineering, Woods Hole Oceanographic Institution, Woods Hole, MA 02543, USAMicroplastics (MPs) have been found in aqueous environments ranging from rural ponds and lakes to the deep ocean. Despite the ubiquity of MPs, our ability to characterize MPs in the environment is limited by the lack of technologies for rapidly and accurately identifying and quantifying MPs. Although standards exist for MP sample collection and preparation, methods of MP analysis vary considerably and produce data with a broad range of data content and quality. The need for extensive analysis-specific sample preparation in current technology approaches has hindered the emergence of a single technique which can operate on aqueous samples in the field, rather than on dried laboratory preparations. In this perspective, we consider MP measurement technologies with a focus on both their eventual field-deployability and their respective data products (e.g., MP particle count, size, and/or polymer type). We present preliminary demonstrations of several prospective MP measurement techniques, with an eye towards developing a solution or solutions that can transition from the laboratory to the field. Specifically, experimental results are presented from multiple prototype systems that measure various physical properties of MPs: pyrolysis-differential mobility spectroscopy, short-wave infrared imaging, aqueous Nile Red labeling and counting, acoustophoresis, ultrasound, impedance spectroscopy, and dielectrophoresis.https://www.mdpi.com/1424-8220/21/10/3532microplasticsplastic pollutionsensorsanalytical chemistryenvironmentwater
collection DOAJ
language English
format Article
sources DOAJ
author Morgan G. Blevins
Harry L. Allen
Beckett C. Colson
Anna-Marie Cook
Alexandra Z. Greenbaum
Sheila S. Hemami
Joseph Hollmann
Ernest Kim
Ava A. LaRocca
Kenneth A. Markoski
Peter Miraglia
Vienna L. Mott
William M. Robberson
Jose A. Santos
Melissa M. Sprachman
Patricia Swierk
Steven Tate
Mark F. Witinski
Louis B. Kratchman
Anna P. M. Michel
spellingShingle Morgan G. Blevins
Harry L. Allen
Beckett C. Colson
Anna-Marie Cook
Alexandra Z. Greenbaum
Sheila S. Hemami
Joseph Hollmann
Ernest Kim
Ava A. LaRocca
Kenneth A. Markoski
Peter Miraglia
Vienna L. Mott
William M. Robberson
Jose A. Santos
Melissa M. Sprachman
Patricia Swierk
Steven Tate
Mark F. Witinski
Louis B. Kratchman
Anna P. M. Michel
Field-Portable Microplastic Sensing in Aqueous Environments: A Perspective on Emerging Techniques
Sensors
microplastics
plastic pollution
sensors
analytical chemistry
environment
water
author_facet Morgan G. Blevins
Harry L. Allen
Beckett C. Colson
Anna-Marie Cook
Alexandra Z. Greenbaum
Sheila S. Hemami
Joseph Hollmann
Ernest Kim
Ava A. LaRocca
Kenneth A. Markoski
Peter Miraglia
Vienna L. Mott
William M. Robberson
Jose A. Santos
Melissa M. Sprachman
Patricia Swierk
Steven Tate
Mark F. Witinski
Louis B. Kratchman
Anna P. M. Michel
author_sort Morgan G. Blevins
title Field-Portable Microplastic Sensing in Aqueous Environments: A Perspective on Emerging Techniques
title_short Field-Portable Microplastic Sensing in Aqueous Environments: A Perspective on Emerging Techniques
title_full Field-Portable Microplastic Sensing in Aqueous Environments: A Perspective on Emerging Techniques
title_fullStr Field-Portable Microplastic Sensing in Aqueous Environments: A Perspective on Emerging Techniques
title_full_unstemmed Field-Portable Microplastic Sensing in Aqueous Environments: A Perspective on Emerging Techniques
title_sort field-portable microplastic sensing in aqueous environments: a perspective on emerging techniques
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2021-05-01
description Microplastics (MPs) have been found in aqueous environments ranging from rural ponds and lakes to the deep ocean. Despite the ubiquity of MPs, our ability to characterize MPs in the environment is limited by the lack of technologies for rapidly and accurately identifying and quantifying MPs. Although standards exist for MP sample collection and preparation, methods of MP analysis vary considerably and produce data with a broad range of data content and quality. The need for extensive analysis-specific sample preparation in current technology approaches has hindered the emergence of a single technique which can operate on aqueous samples in the field, rather than on dried laboratory preparations. In this perspective, we consider MP measurement technologies with a focus on both their eventual field-deployability and their respective data products (e.g., MP particle count, size, and/or polymer type). We present preliminary demonstrations of several prospective MP measurement techniques, with an eye towards developing a solution or solutions that can transition from the laboratory to the field. Specifically, experimental results are presented from multiple prototype systems that measure various physical properties of MPs: pyrolysis-differential mobility spectroscopy, short-wave infrared imaging, aqueous Nile Red labeling and counting, acoustophoresis, ultrasound, impedance spectroscopy, and dielectrophoresis.
topic microplastics
plastic pollution
sensors
analytical chemistry
environment
water
url https://www.mdpi.com/1424-8220/21/10/3532
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