Highly sensitive and room temperature detection of ultra-low concentrations of O3 using self-powered sensing elements of Cu2O nanocubes (bibtex)
by Petromichelaki, E., Gagaoudakis, E., Moschovis, K., Tsetseris, L., Anthopoulos, T. D., Kiriakidis, G. and Binas, V.
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Reference:
Highly sensitive and room temperature detection of ultra-low concentrations of O3 using self-powered sensing elements of Cu2O nanocubes (Petromichelaki, E., Gagaoudakis, E., Moschovis, K., Tsetseris, L., Anthopoulos, T. D., Kiriakidis, G. and Binas, V.), In Nanoscale Adv., RSC, volume 1, 2019.
Bibtex Entry:
@article{C9NA00043G,
  author ="Petromichelaki, E. and Gagaoudakis, E. and Moschovis, K. and Tsetseris, L. and Anthopoulos, T. D. and Kiriakidis, G. and Binas, V.",
  title  ="Highly sensitive and room temperature detection of ultra-low concentrations of O3 using self-powered sensing elements of Cu2O nanocubes",
  journal  ="Nanoscale Adv.",
  year  ="2019",
  bibyear  ="2019",
  volume  ="1",
  issue  ="5",
  pages  ="2009-2017",
  publisher  ="RSC",
  doi  ="10.1039/C9NA00043G",
  url  ="http://dx.doi.org/10.1039/C9NA00043G",
  call={pr003},
  acronym={AFOx},
  fulltitle={Ab initio studies on functional oxides},
  pi={Tsetseris Leonidas},
  affiliation={National Technical University of Athens},
  researchfield={Chemical Sciences and Materials}
}