Issue 16, 2024

On paper characterisation of droplet and evaporation study using impedance spectroscopy

Abstract

The development of paper-based devices has drawn a significant amount of attention, ranging from the creation of paper electronics to microfluidic devices. The flow of fluids through the paper substrate can be controlled by establishing a variety of barriers, which can be accomplished by either cutting or producing layers that are hydrophobic. Through the utilisation of this feature, a number of investigations, including mixing, modifying, and analytical studies, have been carried out on the paper substrate. However, because of the difficulties associated with its wettability, it is seldom investigated for the purpose of conducting evaporation studies of droplets. Traditionally, evaporation studies are carried out on a solid substrate like glass or silicon. Here we report a paper chip employing an impedance method to determine the characteristics of the droplet. It is also possible to determine the identity of the droplet by utilising the dielectric property of the liquid on a paper chip. A comparison is made between the traditional method of evaporation and the usage of the paper chip for the purpose of studying the evaporation of various liquids, ranging from ionic chemicals to volatile compounds. A subsequent step involves the utilisation of an electrical equivalent circuit in order to acquire the complex system attribute of the evaporation of the cellulose fibres. Finally, this reveals that paper chips have a significant amount of promise for use in scientific applications regarding evaporation analysis.

Graphical abstract: On paper characterisation of droplet and evaporation study using impedance spectroscopy

Supplementary files

Article information

Article type
Paper
Submitted
20 Feb 2024
Accepted
04 Apr 2024
First published
04 Apr 2024

Anal. Methods, 2024,16, 2533-2542

On paper characterisation of droplet and evaporation study using impedance spectroscopy

O. K. Siva Prakasam, A. Basu, K. Chaudhury and S. Das, Anal. Methods, 2024, 16, 2533 DOI: 10.1039/D4AY00303A

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