Recent developments in quantitative SERS moving towards absolute quantificationCitation formats

  • Authors:
  • Royston Goodacre
  • Duncan Graham
  • Karen Faulds

Standard

Recent developments in quantitative SERS moving towards absolute quantification. / Goodacre, Royston; Graham, Duncan; Faulds, Karen.

In: Trends in Analytical Chemistry, Vol. 102, 05.2018, p. 359-368.

Research output: Contribution to journalArticlepeer-review

Harvard

Goodacre, R, Graham, D & Faulds, K 2018, 'Recent developments in quantitative SERS moving towards absolute quantification', Trends in Analytical Chemistry, vol. 102, pp. 359-368. https://doi.org/10.1016/j.trac.2018.03.005

APA

Goodacre, R., Graham, D., & Faulds, K. (2018). Recent developments in quantitative SERS moving towards absolute quantification. Trends in Analytical Chemistry, 102, 359-368. https://doi.org/10.1016/j.trac.2018.03.005

Vancouver

Goodacre R, Graham D, Faulds K. Recent developments in quantitative SERS moving towards absolute quantification. Trends in Analytical Chemistry. 2018 May;102:359-368. https://doi.org/10.1016/j.trac.2018.03.005

Author

Goodacre, Royston ; Graham, Duncan ; Faulds, Karen. / Recent developments in quantitative SERS moving towards absolute quantification. In: Trends in Analytical Chemistry. 2018 ; Vol. 102. pp. 359-368.

Bibtex

@article{6babccd0461c44998fcf8ff1b06760d6,
title = "Recent developments in quantitative SERS moving towards absolute quantification",
abstract = "Surface enhanced Raman scattering (SERS) generates molecularly specific fingerprints of analytes and when the experimental conditions are carefully controlled this is highly quantitative. This review critiques the development of quantitative SERS from simple univariate assessment of single vibrational modes to multivariate analysis of the whole spectrum for improved quantification. SERS has also been developed for direct multiplex detection and quantification of multiple analytes and this is also discussed, as is the need for LC-SERS for analyte separation should multivariate chemometric approaches fail to effect quantification. Finally, to effect absolute quantification with SERS, the concepts of isotopologues is introduced along with the standard addition method (SAM) and suitable examples that have been developed and exploited these techniques are presented. We believe that SERS will be routinely used for quantitative analysis and it is only a matter of time before this technique translates from the laboratory to the clinical environment.",
author = "Royston Goodacre and Duncan Graham and Karen Faulds",
year = "2018",
month = may,
doi = "10.1016/j.trac.2018.03.005",
language = "English",
volume = "102",
pages = "359--368",
journal = "Trends in Analytical Chemistry",
issn = "0165-9936",
publisher = "Elsevier BV",

}

RIS

TY - JOUR

T1 - Recent developments in quantitative SERS moving towards absolute quantification

AU - Goodacre, Royston

AU - Graham, Duncan

AU - Faulds, Karen

PY - 2018/5

Y1 - 2018/5

N2 - Surface enhanced Raman scattering (SERS) generates molecularly specific fingerprints of analytes and when the experimental conditions are carefully controlled this is highly quantitative. This review critiques the development of quantitative SERS from simple univariate assessment of single vibrational modes to multivariate analysis of the whole spectrum for improved quantification. SERS has also been developed for direct multiplex detection and quantification of multiple analytes and this is also discussed, as is the need for LC-SERS for analyte separation should multivariate chemometric approaches fail to effect quantification. Finally, to effect absolute quantification with SERS, the concepts of isotopologues is introduced along with the standard addition method (SAM) and suitable examples that have been developed and exploited these techniques are presented. We believe that SERS will be routinely used for quantitative analysis and it is only a matter of time before this technique translates from the laboratory to the clinical environment.

AB - Surface enhanced Raman scattering (SERS) generates molecularly specific fingerprints of analytes and when the experimental conditions are carefully controlled this is highly quantitative. This review critiques the development of quantitative SERS from simple univariate assessment of single vibrational modes to multivariate analysis of the whole spectrum for improved quantification. SERS has also been developed for direct multiplex detection and quantification of multiple analytes and this is also discussed, as is the need for LC-SERS for analyte separation should multivariate chemometric approaches fail to effect quantification. Finally, to effect absolute quantification with SERS, the concepts of isotopologues is introduced along with the standard addition method (SAM) and suitable examples that have been developed and exploited these techniques are presented. We believe that SERS will be routinely used for quantitative analysis and it is only a matter of time before this technique translates from the laboratory to the clinical environment.

U2 - 10.1016/j.trac.2018.03.005

DO - 10.1016/j.trac.2018.03.005

M3 - Article

VL - 102

SP - 359

EP - 368

JO - Trends in Analytical Chemistry

JF - Trends in Analytical Chemistry

SN - 0165-9936

ER -