Absorption electronic spectrum of gaseous FeO: in situ detection with intracavity laser absorption spectroscopy in a nanoparticle-generating flame reactor

Igor Rahinov; Alexey Fomin; Marina Poliak; Sergey Cheskis

doi:10.1007/s00340-014-5838-6

Absorption electronic spectrum of gaseous FeO: in situ detection with intracavity laser absorption spectroscopy in a nanoparticle-generating flame reactor

Igor Rahinov, Alexey Fomin, Marina Poliak, Sergey Cheskis

Open University of Israel, Tel Aviv University

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

Abstract

Absorption measurement of a gas-phase iron oxide (FeO) electronic spectrum is reported for the first time. FeO was obtained in a methane/oxygen/nitrogen flame doped with iron pentacarbonyl and monitored via the 611-nm band of the orange system with intracavity laser absorption spectroscopy. The measured spectral range extends from 16,250 to 16,450 cm⁻¹ for the appropriate intracavity tuning element position. The presented measurements demonstrate sensitive detection of the gas-phase precursor, playing a key role in flame synthesis of iron oxide nanoparticles. The sensitivity of the intracavity technique does not depend on broadband cavity losses and allows conducting measurements in a highly scattering, particle-laden flame environment.

Original language	English
Pages (from-to)	317-323
Number of pages	7
Journal	Applied Physics B: Lasers and Optics
Volume	117
Issue number	1
DOIs	https://doi.org/10.1007/s00340-014-5838-6
State	Published - 1 Oct 2014

All Science Journal Classification (ASJC) codes

General Physics and Astronomy
Physics and Astronomy (miscellaneous)

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title = "Absorption electronic spectrum of gaseous FeO: in situ detection with intracavity laser absorption spectroscopy in a nanoparticle-generating flame reactor",

abstract = "Absorption measurement of a gas-phase iron oxide (FeO) electronic spectrum is reported for the first time. FeO was obtained in a methane/oxygen/nitrogen flame doped with iron pentacarbonyl and monitored via the 611-nm band of the orange system with intracavity laser absorption spectroscopy. The measured spectral range extends from 16,250 to 16,450 cm−1 for the appropriate intracavity tuning element position. The presented measurements demonstrate sensitive detection of the gas-phase precursor, playing a key role in flame synthesis of iron oxide nanoparticles. The sensitivity of the intracavity technique does not depend on broadband cavity losses and allows conducting measurements in a highly scattering, particle-laden flame environment.",

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T1 - Absorption electronic spectrum of gaseous FeO

T2 - in situ detection with intracavity laser absorption spectroscopy in a nanoparticle-generating flame reactor

AU - Rahinov, Igor

AU - Fomin, Alexey

AU - Poliak, Marina

AU - Cheskis, Sergey

PY - 2014/10/1

Y1 - 2014/10/1

N2 - Absorption measurement of a gas-phase iron oxide (FeO) electronic spectrum is reported for the first time. FeO was obtained in a methane/oxygen/nitrogen flame doped with iron pentacarbonyl and monitored via the 611-nm band of the orange system with intracavity laser absorption spectroscopy. The measured spectral range extends from 16,250 to 16,450 cm−1 for the appropriate intracavity tuning element position. The presented measurements demonstrate sensitive detection of the gas-phase precursor, playing a key role in flame synthesis of iron oxide nanoparticles. The sensitivity of the intracavity technique does not depend on broadband cavity losses and allows conducting measurements in a highly scattering, particle-laden flame environment.

AB - Absorption measurement of a gas-phase iron oxide (FeO) electronic spectrum is reported for the first time. FeO was obtained in a methane/oxygen/nitrogen flame doped with iron pentacarbonyl and monitored via the 611-nm band of the orange system with intracavity laser absorption spectroscopy. The measured spectral range extends from 16,250 to 16,450 cm−1 for the appropriate intracavity tuning element position. The presented measurements demonstrate sensitive detection of the gas-phase precursor, playing a key role in flame synthesis of iron oxide nanoparticles. The sensitivity of the intracavity technique does not depend on broadband cavity losses and allows conducting measurements in a highly scattering, particle-laden flame environment.

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DO - 10.1007/s00340-014-5838-6

M3 - مقالة

SN - 0946-2171

VL - 117

SP - 317

EP - 323

JO - Applied Physics B: Lasers and Optics

JF - Applied Physics B: Lasers and Optics

IS - 1

ER -

Absorption electronic spectrum of gaseous FeO: in situ detection with intracavity laser absorption spectroscopy in a nanoparticle-generating flame reactor

Abstract

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