[Watersheds] New Passive Sampling Device for PFAS

Fri Nov 5 09:21:39 EDT 2021

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[Superfund Research Program - Research Brief]

Research Brief 323: New Passive Sampling Device for PFAS

Researchers from the NIEHS Superfund Research Program (SRP)-funded centers at the University of Rhode Island (URI) and Brown University developed a new type of passive sampling device [https://urldefense.com/v3/__http://pubs.rsc.org__;!!KKphUJtCzQ!eRM1njV1LgsmntmgU-x_6Hl3SL-IHpivfLNwLfd3sJGUBYxfuIuysN6VRMz8e0uKVSJAcpD9$ [pubs[.]rsc[.]org]]<https://urldefense.com/v3/__https:/pubs.rsc.org/en/content/articlelanding/2021/en/d1en00517k__;!!KKphUJtCzQ!f5a4HTKG5HtEm4q76FUMqrNp9QbmwBbKxsKFyvZRJ1QFlSVPDeotZC1-8XnP3q_EKg8V$> for per- and polyfluoroalkyl substances (PFAS). Their new tool overcomes many limitations to traditional approaches, such as detecting short-chain PFAS and low concentrations of the chemicals in water.

PFAS chemicals, a large group of compounds found in aqueous film-forming foams, used for fire suppression, and in everyday consumer products, are made up of a chain of linked carbon and fluorine atoms. The length of the carbon-fluorine chain varies between PFAS chemicals, but because this carbon-fluorine bond is strong, PFAS do not easily break down in the environment. Until now, effectively monitoring PFAS at low, environmentally relevant concentrations was difficult.

Led by Jitka Becanova, Ph.D., a URI SRP Center trainee working with Rainer Lohmann, Ph.D., the collaborative project was made possible through a K.C. Donnelly Externship Award [https://urldefense.com/v3/__http://niehs.nih.gov__;!!KKphUJtCzQ!eRM1njV1LgsmntmgU-x_6Hl3SL-IHpivfLNwLfd3sJGUBYxfuIuysN6VRMz8e0uKVS_XpkO1$ [niehs[.]nih[.]gov]]<https://urldefense.com/v3/__https:/www.niehs.nih.gov/research/supported/centers/srp/training/donnelly/2018winners/index.cfm__;!!KKphUJtCzQ!f5a4HTKG5HtEm4q76FUMqrNp9QbmwBbKxsKFyvZRJ1QFlSVPDeotZC1-8XnP3rmU548j$> in 2018. Becanova used the award to work with Robert Hurt, Ph.D., at the Brown University SRP Center.

Designing and optimizing the sampling device
[Cylindrical sampling devices utilize a grafted graphene surface to attract short-chain PFAS as well as an un-altered graphene surface to continue attracting long-chain PFAS.]

The sampling devices are miniature cylinders assembled from graphene oxide nanosheets, which stack to create internal pores. These cylinders collect PFAS from aquatic environments via adsorption, leveraging the high internal surface area of the atomically thin graphene. The PFAS are then concentrated and can be extracted and measured using traditional laboratory methods, such as mass spectrometry.

The team measured the ability of the cylinders to collect 23 different PFAS chemicals from water. Then they explored how to optimize the samplers to collect a broader range of PFAS chemicals. In particular, they sought to improve the functionality for sampling short-chain PFAS, which tend to have negative chemical charges and, therefore, are repelled by the similarly negatively charged graphene oxide nanosheets.

Using a novel but simple grafting method based on diazonium chemistry, they were able to introduce a positive surface charge to the graphene cylinders, thereby increasing their affinity to adsorb short-chain PFAS. The team reported ten-fold increased sorption of short- and middle-chain PFAS using this modification.

Testing in the field

To evaluate the performance of the passive samplers under realistic conditions, the team deployed them in the Delaware River in New Jersey. This area is known to have high levels of several PFAS chemicals.

They measured PFAS levels in water samples collected from three sites using water grabs and compared them to measurements using the graphene cylinder method. Both approaches revealed the same composition of PFAS at these sites. The concentrations of PFAS derived from the passive sampler were four-fold lower than the data obtained from the water grabs.

According to the team, these findings demonstrate that their passive samplers successfully measure PFAS in the field and may prove promising as a screening tool for PFAS.
[Lab analysis of PFAS concentrations from three sites in the Delaware River showed similar levels to the graphene cylinder measurements.]
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For More Information, Contact:

Rainer Lohmann [https://urldefense.com/v3/__http://tools.niehs.nih.gov__;!!KKphUJtCzQ!eRM1njV1LgsmntmgU-x_6Hl3SL-IHpivfLNwLfd3sJGUBYxfuIuysN6VRMz8e0uKVdX4zMAr$ [tools[.]niehs[.]nih[.]gov]]<https://urldefense.com/v3/__https:/tools.niehs.nih.gov/srp/people/details.cfm?person_id=39458__;!!KKphUJtCzQ!f5a4HTKG5HtEm4q76FUMqrNp9QbmwBbKxsKFyvZRJ1QFlSVPDeotZC1-8XnP3lF-DT_6$>
University of Rhode Island
132 Horn Laboratory
Narragansett, Rhode Island 02882-1197
Phone: 401-874-6612
Email: rlohmann at uri.edu<mailto:rlohmann at uri.edu>

Robert H. Hurt [https://urldefense.com/v3/__http://tools.niehs.nih.gov__;!!KKphUJtCzQ!eRM1njV1LgsmntmgU-x_6Hl3SL-IHpivfLNwLfd3sJGUBYxfuIuysN6VRMz8e0uKVdX4zMAr$ [tools[.]niehs[.]nih[.]gov]]<https://urldefense.com/v3/__https:/tools.niehs.nih.gov/srp/people/details.cfm?person_id=11326__;!!KKphUJtCzQ!f5a4HTKG5HtEm4q76FUMqrNp9QbmwBbKxsKFyvZRJ1QFlSVPDeotZC1-8XnP3uv3vbvW$>
Brown University
182 Hope St., Box D
Providence, Rhode Island 02912
Phone: 401-863-2685
Email: robert_hurt at brown.edu<mailto:robert_hurt at brown.edu>

To learn more about this research, please refer to the following source:

  *   Becanova J, Saleeba Z, Stone A, Robuck AR, Hurt RH and Lohmann R. 2021. A graphene-based hydrogel monolith with tailored surface chemistry for PFAS passive sampling. Environ Sci-Nano 8, 2894-2907. doi: 10.1039/D1EN00517K [https://urldefense.com/v3/__http://pubs.rsc.org__;!!KKphUJtCzQ!eRM1njV1LgsmntmgU-x_6Hl3SL-IHpivfLNwLfd3sJGUBYxfuIuysN6VRMz8e0uKVSJAcpD9$ [pubs[.]rsc[.]org]]<https://urldefense.com/v3/__https:/pubs.rsc.org/en/content/articlelanding/2021/EN/D1EN00517K__;!!KKphUJtCzQ!f5a4HTKG5HtEm4q76FUMqrNp9QbmwBbKxsKFyvZRJ1QFlSVPDeotZC1-8XnP3jlBA_dh$>

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