Issue 23, 2022

3D printed field-deployable microfluidic systems for the separation and assay of Pu in nuclear forensics

Abstract

A compact field-deployable microfluidic system has been developed to improve timelines for the rapid analysis of debris in post-detonation nuclear forensics. We used a high-resolution 3D printer to miniaturize typical laboratory-based procedures into a fieldable platform. Microfluidic half-modules were produced for the purification of Pu from excess U, along with a portable alpha chamber for the following isotopic analysis of the Pu stream. A porous PTFE membrane is soaked with a hydrophobic tributyl phosphate (TBP) solution and is placed between two half-modules; separation is performed as a liquid–liquid extraction in an extraction channel across this membrane, where the forward and back-extractions occur within one complete module. Following separation, a 100 μL sampling of the Pu-bearing stream is injected into a small-footprint 3D printed alpha chamber for isotopic assay via alpha spectrometry as part of an online process. In this first demonstration of microfluidic separation coupled with online alpha spectrometry, high extraction yields have been obtained for Pu (98.9 ± 4.0)% and U (97.5 ± 2.5)%. The process uses less than 800 μL of solution with separation chemistry complete within 45 minutes and subsequent alpha spectrometry initiating 25 minutes after separation.

Graphical abstract: 3D printed field-deployable microfluidic systems for the separation and assay of Pu in nuclear forensics

Supplementary files

Article information

Article type
Paper
Submitted
27 Apr 2022
Accepted
06 Sep 2022
First published
15 Sep 2022
This article is Open Access
Creative Commons BY-NC license

Lab Chip, 2022,22, 4493-4500

3D printed field-deployable microfluidic systems for the separation and assay of Pu in nuclear forensics

K. J. Glennon, H. F. Valdovinos, T. Parsons-Davis, J. A. Shusterman, A. G. Servis, K. J. Moody and N. Gharibyan, Lab Chip, 2022, 22, 4493 DOI: 10.1039/D2LC00391K

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