Methane Detection Scheme based upon the Changing Optical Constants of a Zinc Oxide/Platinum Matrix created by a Redox Reaction and their effect upon Surface Plasmons

  • Thomas Allsop (Creator)
  • Vojtech Kundrát (Creator)
  • Kyriacos Kalli (Creator)
  • Graham Lee (Creator)
  • Ron Neal (Creator)
  • Peter Bond (Creator)
  • Baogul Shi (Creator)
  • John Sullivan (Creator)
  • Philip F. Culverhouse (Creator)
  • David Webb (Creator)

Dataset

Description

Data underpinning publication of the same name

Collection Method: Wavelength (nm), optical strength (dB), Atomic Force Microscope

Funding: EPSRC (EP/J010413, EP/J010391)
Date made available10 Aug 2017
PublisherAston Data Explorer
Date of data production1 Jan 2015 - 1 Jan 2017

Research Output

Methane detection scheme based upon the changing optical constants of a zinc oxide/platinum matrix created by a redox reaction and their effect upon surface plasmons

Allsop, T., Kundrat, V., Kalli, K., Lee, G. B., Neal, R., Bond, P., Shi, B., Sullivan, J., Culverhouse, P. & Webb, D. J., 1 Feb 2018, In : Sensors and Actuators, B: Chemical. 255, 1, p. 843-853

Research output: Contribution to journalArticle

Open Access
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  • Cite this

    Allsop, T. (Creator), Kundrát, V. (Creator), Kalli, K. (Creator), Lee, G. (Creator), Neal, R. (Creator), Bond, P. (Creator), Shi, B. (Creator), Sullivan, J. (Creator), Culverhouse, P. F. (Creator), Webb, D. (Creator) (10 Aug 2017). Methane Detection Scheme based upon the Changing Optical Constants of a Zinc Oxide/Platinum Matrix created by a Redox Reaction and their effect upon Surface Plasmons. Aston Data Explorer. 10.17036/researchdata.aston.ac.uk.00000276