Electrical conductivity of doped porous glasses as possible sensors for oxygen

Tsiala Saraidarov; Renata Reisfeld; Elena Zigansky; Aldona Sashchiuk; Efrat Lifshitz

Electrical conductivity of doped porous glasses as possible sensors for oxygen

Tsiala Saraidarov, Renata Reisfeld^*, Elena Zigansky, Aldona Sashchiuk, Efrat Lifshitz

^*Corresponding author for this work

Institute of Chemistry

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

4 Scopus citations

Abstract

We are proposing Rubpy complex incorporated in a number of porous sol-gel thin films as a sensor for oxygen. The principle is based on the following fact: triplet oxygen reacts with the excited states of Rubpy resulting in decay of luminescence of the complex due to triplet quenching. The decrease of fluorescence is proportional to the amount of absorbed oxygen. We discuss here several sol-gel matrices with doped by Ru(bpy)₃⁺² deposited as thin films on ITO conducting glass. The absorption and emission spectra of the complex, and electrical conductivity of the doped films show how the fluorescence can be excited either by optical or electronic means. The decrease of fluorescence indicates the concentration of oxygen.

Original language	English
Pages (from-to)	109-117
Number of pages	9
Journal	Optica Applicata
Volume	38
Issue number	1
State	Published - 2008

Keywords

Electrical conductivity
Fluorescence
Porous glasses
Rubpy complex
Sensors for oxygen

Cite this

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title = "Electrical conductivity of doped porous glasses as possible sensors for oxygen",

abstract = "We are proposing Rubpy complex incorporated in a number of porous sol-gel thin films as a sensor for oxygen. The principle is based on the following fact: triplet oxygen reacts with the excited states of Rubpy resulting in decay of luminescence of the complex due to triplet quenching. The decrease of fluorescence is proportional to the amount of absorbed oxygen. We discuss here several sol-gel matrices with doped by Ru(bpy)3+2 deposited as thin films on ITO conducting glass. The absorption and emission spectra of the complex, and electrical conductivity of the doped films show how the fluorescence can be excited either by optical or electronic means. The decrease of fluorescence indicates the concentration of oxygen.",

keywords = "Electrical conductivity, Fluorescence, Porous glasses, Rubpy complex, Sensors for oxygen",

author = "Tsiala Saraidarov and Renata Reisfeld and Elena Zigansky and Aldona Sashchiuk and Efrat Lifshitz",

year = "2008",

language = "אנגלית",

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AU - Saraidarov, Tsiala

AU - Reisfeld, Renata

AU - Zigansky, Elena

AU - Sashchiuk, Aldona

AU - Lifshitz, Efrat

PY - 2008

Y1 - 2008

N2 - We are proposing Rubpy complex incorporated in a number of porous sol-gel thin films as a sensor for oxygen. The principle is based on the following fact: triplet oxygen reacts with the excited states of Rubpy resulting in decay of luminescence of the complex due to triplet quenching. The decrease of fluorescence is proportional to the amount of absorbed oxygen. We discuss here several sol-gel matrices with doped by Ru(bpy)3+2 deposited as thin films on ITO conducting glass. The absorption and emission spectra of the complex, and electrical conductivity of the doped films show how the fluorescence can be excited either by optical or electronic means. The decrease of fluorescence indicates the concentration of oxygen.

AB - We are proposing Rubpy complex incorporated in a number of porous sol-gel thin films as a sensor for oxygen. The principle is based on the following fact: triplet oxygen reacts with the excited states of Rubpy resulting in decay of luminescence of the complex due to triplet quenching. The decrease of fluorescence is proportional to the amount of absorbed oxygen. We discuss here several sol-gel matrices with doped by Ru(bpy)3+2 deposited as thin films on ITO conducting glass. The absorption and emission spectra of the complex, and electrical conductivity of the doped films show how the fluorescence can be excited either by optical or electronic means. The decrease of fluorescence indicates the concentration of oxygen.

KW - Electrical conductivity

KW - Fluorescence

KW - Porous glasses

KW - Rubpy complex

KW - Sensors for oxygen

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VL - 38

SP - 109

EP - 117

JO - Optica Applicata

JF - Optica Applicata

IS - 1

ER -

Electrical conductivity of doped porous glasses as possible sensors for oxygen

Abstract

Keywords

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