P
Peter Heszler
Researcher at Hungarian Academy of Sciences
Publications - 97
Citations - 2088
Peter Heszler is an academic researcher from Hungarian Academy of Sciences. The author has contributed to research in topics: Laser & Excimer laser. The author has an hindex of 25, co-authored 97 publications receiving 1993 citations. Previous affiliations of Peter Heszler include Uppsala University & University of Szeged.
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Journal ArticleDOI
Electrical and optical properties of thin films consisting of tin-doped indium oxide nanoparticles
J. Ederth,P. Johnsson,Gunnar A. Niklasson,Anders Hoel,A. Hultåker,Peter Heszler,C. G. Granqvist,A. R. van Doorn,M. J. Jongerius,Detlef Burgard +9 more
TL;DR: In this article, the effects of annealing on the ITO nanoparticles were investigated by analyzing the spectral optical reflectance and transmittance using effective medium theory and accounting for ionized impurity scattering.
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Low-level detection of ethanol and H2S with temperature-modulated WO3 nanoparticle gas sensors
Radu Ionescu,Radu Ionescu,Anders Hoel,C. G. Granqvist,Eduard Llobet,Peter Heszler,Peter Heszler +6 more
TL;DR: Low-Level Detection of Ethanol and H2S with Temperature-Modulated WO3 Nanoparticle Gas Sensors as discussed by the authors was the first low-level detection of ethanol and h2S.
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Nanomaterials for benign indoor environments: Electrochromics for 'smart windows', sensors for air quality, and photo-catalysts for air cleaning
TL;DR: In this article, the authors take a unified view on this problem from a solar-energy-based perspective and specifically consider electrochromics for achieving good day-lighting jointly with energy efficiency, sensors aimed at air quality assessment, and photocatalysis for air cleaning.
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Indium tin oxide films made from nanoparticles: models for the optical and electrical properties
TL;DR: In this paper, the authors analyzed the porosity of indium tin oxide (ITO) nanoparticles and found that the individual ITO nanoparticles had a resistivity of ∼2×10 −4 Ω cm.
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Gas sensor response of pure and activated WO3 nanoparticle films made by advanced reactive gas deposition
TL;DR: In this article, pure and activated (doped) nanocrystalline WO 3 films, produced by advanced reactive gas deposition, were investigated for gas sensing applications, and the sensitivity was found to lie below and around the ppm level for H 2 S, CO, and NO 2, respectively.