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dc.contributor.authorTurner, P.-
dc.contributor.authorPaton, K.R.-
dc.contributor.authorLegge, E.J.-
dc.contributor.authorde Luna Bugallo, A.-
dc.contributor.authorRocha-Robledo, A.K.S.-
dc.contributor.authorZahab, A.-A.-
dc.contributor.authorCenteno, A.-
dc.contributor.authorSacco, A.-
dc.contributor.authorPesquera, A.-
dc.contributor.authorZurutuza, A.-
dc.contributor.authorRossi, A.M.-
dc.contributor.authorTran, D.N.H.-
dc.contributor.authorSilva, D.-
dc.contributor.authorLosic, D.-
dc.contributor.authorFarivar, F.-
dc.contributor.authorKerdoncuff, H.-
dc.contributor.authorKwon, H.-
dc.contributor.authorPirart, J.-
dc.contributor.authorCampos, J.L.E.-
dc.contributor.authorSubhedar, K.M.-
dc.contributor.authoret al.-
dc.identifier.citation2D Materials, 2022; 9(3):035010-1-035010-16-
dc.description.abstractThere is a pressing need for reliable, reproducible and accurate measurements of graphene’s properties, through international standards, to facilitate industrial growth. However, trustworthy and verified standards require rigorous metrological studies, determining, quantifying and reducing the sources of measurement uncertainty. Towards this effort, we report the procedure and the results of an international interlaboratory comparison (ILC) study, conducted under Versailles Project on Advanced Materials and Standards. This ILC focusses on the comparability of Raman spectroscopy measurements of chemical vapour deposition (CVD) grown graphene using the same measurement protocol across different institutes and laboratories. With data gathered from 17 participants across academia, industry (including instrument manufacturers) and national metrology institutes, this study investigates the measurement uncertainty contributions from both Raman spectroscopy measurements and data analysis procedures, as well as provides solutions for improved accuracy and precision. While many of the reported Raman metrics were relatively consistent, significant and meaningful outliers occurred due to differences in the instruments and data analysis. These variations resulted in inconsistent reports of peak intensity ratios, peak widths and the coverage of graphene. Due to a lack of relative intensity calibration, the relative difference reported in the 2D- and G peak intensity ratios (I2D/IG) was up to 200%. It was also shown that the standard deviation for Γ2D values reported by different software packages, was 15× larger for Lorentzian fit functions than for pseudo-Voigt functions. This study has shown that by adopting a relative intensity calibration and consistent peak fitting and data analysis methodologies, these large, and previously unquantified, variations can be significantly reduced, allowing more reproducible and comparable measurements for the graphene community, supporting fundamental research through to the growing graphene industry worldwide. This project and its findings directly underpin the development of the ISO/IEC standard ‘DTS 21356-2—Nanotechnologies—Structural Characterisation of CVD-grown Graphene’.-
dc.description.statementofresponsibilityPiers Turner ... Diana N H Tran ... Dusan Losic, Farzaneh Farivar, ... Pei Lay Yap al.-
dc.publisherIOP Publishing-
dc.rights© 2022 IOP Publishing Ltd-
dc.subjectgraphene; Raman spectroscopy; chemical vapour deposition; uncertainty; VAMAS; standardisation; interlaboratory study-
dc.titleInternational interlaboratory comparison of Raman spectroscopic analysis of CVD-grown graphene-
dc.typeJournal article-
dc.identifier.orcidLosic, D. [0000-0002-1930-072X]-
dc.identifier.orcidFarivar, F. [0000-0002-4829-1682]-
dc.identifier.orcidYap, P.L. [0000-0001-7346-8139]-
Appears in Collections:ARC Research Hub for Graphene Enabled Industry Transformation publications
Chemical Engineering publications

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