Step Change in Improving the Accuracy of Nitrous Oxide Reference Materials for Underpinning Atmospheric Composition Measurements

Kanokrat Charoenpornpukdee; Simon O’Doherty; Eric Mussell Webber; Ruth Hill-Pearce; Aimee Hillier; David R. Worton; Tim Arnold; Chris Rennick; Emmal Safi; Paul Brewer

doi:10.1021/acs.analchem.3c02160

Step Change in Improving the Accuracy of Nitrous Oxide Reference Materials for Underpinning Atmospheric Composition Measurements

Kanokrat Charoenpornpukdee, Simon O’Doherty, Eric Mussell Webber, Ruth Hill-Pearce, Aimee Hillier, David R. Worton, Tim Arnold, Chris Rennick, Emmal Safi, Paul Brewer

Research output: Contribution to journal › Article › peer-review

Abstract

We have employed a new approach to quantify the amount fraction of nitrous oxide in a synthetic air matrix gas used to prepare high-accuracy reference materials of the same component. Until now, this was the largest contributor to the measurement uncertainty of nitrous oxide in air reference materials at atmospheric amount fractions (∼330 nmol mol^-1), as identified in a recent international comparison. A novel preconcentration method has resulted in a measurement of 363 pmol mol^-1 of nitrous oxide in a synthetic air matrix gas with an expanded uncertainty of 27 pmol mol^-1. This represents a significant breakthrough as using these developments with an optimized dilution hierarchy (to minimize the gravimetric uncertainty) promises to result in SI traceable reference materials with expanded uncertainties as low as 0.032% relative (k = 2). This supports the World Meteorological Organization-Global Atmosphere Watch network compatibility goal for underpinning atmospheric observations.

Original language	English
Pages (from-to)	12867-12874
Number of pages	8
Journal	Analytical Chemistry
Volume	95
Issue number	34
DOIs	https://doi.org/10.1021/acs.analchem.3c02160
Publication status	Published - 2023 Aug 29
Externally published	Yes

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© 2023 American Chemical Society.

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Charoenpornpukdee, K., O’Doherty, S., Webber, E. M., Hill-Pearce, R., Hillier, A., Worton, D. R., Arnold, T., Rennick, C., Safi, E., & Brewer, P. (2023). Step Change in Improving the Accuracy of Nitrous Oxide Reference Materials for Underpinning Atmospheric Composition Measurements. Analytical Chemistry, 95(34), 12867-12874. https://doi.org/10.1021/acs.analchem.3c02160

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title = "Step Change in Improving the Accuracy of Nitrous Oxide Reference Materials for Underpinning Atmospheric Composition Measurements",

abstract = "We have employed a new approach to quantify the amount fraction of nitrous oxide in a synthetic air matrix gas used to prepare high-accuracy reference materials of the same component. Until now, this was the largest contributor to the measurement uncertainty of nitrous oxide in air reference materials at atmospheric amount fractions (∼330 nmol mol-1), as identified in a recent international comparison. A novel preconcentration method has resulted in a measurement of 363 pmol mol-1 of nitrous oxide in a synthetic air matrix gas with an expanded uncertainty of 27 pmol mol-1. This represents a significant breakthrough as using these developments with an optimized dilution hierarchy (to minimize the gravimetric uncertainty) promises to result in SI traceable reference materials with expanded uncertainties as low as 0.032\% relative (k = 2). This supports the World Meteorological Organization-Global Atmosphere Watch network compatibility goal for underpinning atmospheric observations.",

author = "Kanokrat Charoenpornpukdee and Simon O{\textquoteright}Doherty and Webber, \{Eric Mussell\} and Ruth Hill-Pearce and Aimee Hillier and Worton, \{David R.\} and Tim Arnold and Chris Rennick and Emmal Safi and Paul Brewer",

note = "Publisher Copyright: {\textcopyright} 2023 American Chemical Society.",

year = "2023",

month = aug,

day = "29",

doi = "10.1021/acs.analchem.3c02160",

language = "English",

volume = "95",

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Charoenpornpukdee, K, O’Doherty, S, Webber, EM, Hill-Pearce, R, Hillier, A, Worton, DR, Arnold, T, Rennick, C, Safi, E & Brewer, P 2023, 'Step Change in Improving the Accuracy of Nitrous Oxide Reference Materials for Underpinning Atmospheric Composition Measurements', Analytical Chemistry, vol. 95, no. 34, pp. 12867-12874. https://doi.org/10.1021/acs.analchem.3c02160

TY - JOUR

T1 - Step Change in Improving the Accuracy of Nitrous Oxide Reference Materials for Underpinning Atmospheric Composition Measurements

AU - Charoenpornpukdee, Kanokrat

AU - O’Doherty, Simon

AU - Webber, Eric Mussell

AU - Hill-Pearce, Ruth

AU - Hillier, Aimee

AU - Worton, David R.

AU - Arnold, Tim

AU - Rennick, Chris

AU - Safi, Emmal

AU - Brewer, Paul

PY - 2023/8/29

Y1 - 2023/8/29

N2 - We have employed a new approach to quantify the amount fraction of nitrous oxide in a synthetic air matrix gas used to prepare high-accuracy reference materials of the same component. Until now, this was the largest contributor to the measurement uncertainty of nitrous oxide in air reference materials at atmospheric amount fractions (∼330 nmol mol-1), as identified in a recent international comparison. A novel preconcentration method has resulted in a measurement of 363 pmol mol-1 of nitrous oxide in a synthetic air matrix gas with an expanded uncertainty of 27 pmol mol-1. This represents a significant breakthrough as using these developments with an optimized dilution hierarchy (to minimize the gravimetric uncertainty) promises to result in SI traceable reference materials with expanded uncertainties as low as 0.032% relative (k = 2). This supports the World Meteorological Organization-Global Atmosphere Watch network compatibility goal for underpinning atmospheric observations.

AB - We have employed a new approach to quantify the amount fraction of nitrous oxide in a synthetic air matrix gas used to prepare high-accuracy reference materials of the same component. Until now, this was the largest contributor to the measurement uncertainty of nitrous oxide in air reference materials at atmospheric amount fractions (∼330 nmol mol-1), as identified in a recent international comparison. A novel preconcentration method has resulted in a measurement of 363 pmol mol-1 of nitrous oxide in a synthetic air matrix gas with an expanded uncertainty of 27 pmol mol-1. This represents a significant breakthrough as using these developments with an optimized dilution hierarchy (to minimize the gravimetric uncertainty) promises to result in SI traceable reference materials with expanded uncertainties as low as 0.032% relative (k = 2). This supports the World Meteorological Organization-Global Atmosphere Watch network compatibility goal for underpinning atmospheric observations.

UR - https://www.scopus.com/pages/publications/85169066557

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DO - 10.1021/acs.analchem.3c02160

M3 - Article

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AN - SCOPUS:85169066557

SN - 0003-2700

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JO - Analytical Chemistry

JF - Analytical Chemistry

IS - 34

ER -

Step Change in Improving the Accuracy of Nitrous Oxide Reference Materials for Underpinning Atmospheric Composition Measurements

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