Issue 24, 2024

Development of low-cost, compact chiroptical imaging systems

Abstract

Circular dichroism spectroscopy is a key probe of the structural and optical properties of chiral materials, however, commercial circular dichroism spectrometers are large, prohibitively expensive and rarely offer environmental control of the sample under test. Using Fresnel rhombs as inexpensive broadband quarter-wave plates, we demonstrate two novel, low-cost (<£2000) and portable imaging systems controlled by our own bespoke open-source control software which are capable of spatially mapping the circular dichroism of chiral solid state films. By coupling these imaging systems with a temperature controlled stage, we show that we can rapidly identify the thermal processing conditions required to maximise circular dichroism in chiral solid state films by measuring circular dichroism in situ during thermal annealing of a sample under test. The accuracy and spatial resolution of these circular dichroism imagers are cross-compared against our previous studies using an existing circular dichroism imaging system at the Diamond Light Source and are shown to be in good agreement, with a sensitivity down to 250 mdeg and a spatial resolution of 100 μm.

Graphical abstract: Development of low-cost, compact chiroptical imaging systems

Supplementary files

Article information

Article type
Paper
Submitted
15 apr 2024
Accepted
03 iyn 2024
First published
04 iyn 2024
This article is Open Access
Creative Commons BY license

Nanoscale, 2024,16, 11623-11632

Development of low-cost, compact chiroptical imaging systems

M. D. Ward, R. Docherty, L. Minion, X. Shi, K. Anson, G. Siligardi, J. Nelson, J. Wade and M. J. Fuchter, Nanoscale, 2024, 16, 11623 DOI: 10.1039/D4NR01651C

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