Issue 45, 2022

Autofluorescence spectroscopy for quantitative analysis of cellulose nanocrystals

Abstract

The ability to determine the physicochemical properties of nanoparticles, such as cellulose nanocrystals, in suspension is critically important to maximize their potential. Currently, various techniques are required to ascertain different properties, which results in a laborious analysis procedure. Here, autofluorescence arising from the cluster-triggered emission (CTE) photoluminescence mechanism is utilized as an analytical spectroscopic tool to determine multiple properties from one data acquisition sequence. This study confirms that key properties – including the nanoparticle concentration in suspension, the critical concentration for liquid crystal formation, and the surface charge content – can be obtained simultaneously. Measured values are accurate to within 10% of conventional techniques with average residual errors of 0.4 wt% for the critical concentration, and 11 mmol kg−1 CNC for the surface charge content. This charge-coupled device (CCD) sensor-based methodology is rapid and does not require the addition of further chemicals. These results support the theory behind CTE and represent a new opportunity for quantitatively analysing non-aromatic, heteroatom-containing nanoparticles in flow based on understanding their inter- and intra-particle interactions.

Graphical abstract: Autofluorescence spectroscopy for quantitative analysis of cellulose nanocrystals

Supplementary files

Article information

Article type
Paper
Submitted
02 Sep 2022
Accepted
26 Oct 2022
First published
27 Oct 2022

Nanoscale, 2022,14, 16883-16892

Autofluorescence spectroscopy for quantitative analysis of cellulose nanocrystals

M. A. Johns, J. Abu-Namous, H. Zhao, M. Gattrell, J. Lockhart and E. D. Cranston, Nanoscale, 2022, 14, 16883 DOI: 10.1039/D2NR04823J

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