Lithium octa-n-butoxy-naphthalocyanine (LiNc-BuO) is a stable free radical that can be detected by electron paramagnetic resonance (EPR) spectroscopy. Previously we have reported that microcrystals of LiNc-BuO exhibit a single sharp EPR peak, whose width varies linearly with the partial pressure of paramagnetic molecules such as oxygen and nitric oxide. In this report, we present the effect of nitrogen dioxide (NO2), which is also a paramagnetic molecule, on the EPR properties of LiNc-BuO. The gas-sensing property of LiNc-BuO is attributed to the open molecular framework of the crystal structure which is arranged with wide channels capable of accommodating large molecules such as NO2. The EPR linewidth of LiNc-BuO was highly sensitive to the partial pressure of NO2 in the gas mixture. The line-broadening was quick and reversible in the short-term for low concentration of NO2. However, the EPR signal intensity decreased with time of exposure, apparently due to a reaction of NO2 with LiNc-BuO crystals to give diamagnetic products. The results suggested that LiNc-BuO may be a useful probe for the determination of trace amounts of NO2 using EPR spectroscopy. © 2006 Elsevier Inc. All rights reserved.

Periyakaruppan Thangiah Manoharan

Chemical sensors

Crystal Structure

Free radicals

Nitrogen compounds

Paramagnetic resonance

Parameter estimation

Partial pressure

NAPHTHALOCYANINE

Nitric oxide

Nitrogen dioxide

PHTHALOCYANINE

Lithium compounds

LITHIUM 5,9,14,18,23,27,32,36 OCTA N BUTOXY 2,3 NAPHTHOCYANINE

LITHIUM 5,9,14,18,23,27,32,36-OCTA-N-BUTOXY-2,3-NAPHTHOCYANINE

metalloporphyrin

article

chemistry

electron spin resonance

methodology

Electron spin resonance spectroscopy

Metalloporphyrins

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Journal of Magnetic Resonance

The oxygen-induced broadening of the electron paramagnetic resonance (EPR) spectrum of lithium octa-n-butoxy-naphthalocyanine (LiNc-BuO) is interpreted in terms of its open molecular framework crystal structure. LiNc-BuO was prepared as a microcrystalline powder and its structure analyzed using X-ray powder diffraction techniques. The structure contains strongly coupled dimers of LiNc-BuO molecules, which favors a high degree of spin exchange, and results in a single sharp EPR line. The molecular packing leads to a structure with open channels large enough (10 × 6 Å2) for the penetration of small diatomic paramagnetic molecules such as oxygen (O2) and nitric oxide (NO), as well as the larger triatomic species, nitrogen dioxide (NO 2). The EPR linewidth of LiNc-BuO is extremely sensitive to the concentration of paramagnetic gases in the pressure range of 0-760 mmHg. The effect of oxygen on LiNc-BuO is reversible without any signs of permanent adsorption or chemical oxidation. The time response of the effect of oxygen is extremely rapid (0.24 s). The paramagnetic gas-sensing properties of LiNc-BuO are attributed to the open molecular framework of the crystal structure. The oxygen-sensing property, combined with the previously established biostability and biocompatibility of this material, should enable precise and accurate measurements of oxygen concentration in biological systems using EPR spectroscopy. © The Royal Society of Chemistry 2006.

Journal of Materials Chemistry

The open molecular framework of paramagnetic lithium octabutoxy-naphthalocyanine: Implications for the detection of oxygen and nitric oxide using EPR spectroscopy

Hawley's Condensed Chemical Dictionary

Nitric Acid, Fuming

Free volume and intrinsic microporosity in polymers

Mechanism of oxygen-induced EPR line broadening in lithium phthalocyanine microcrystals

Free Radical Biology and Medicine

Novel particulate spin probe for targeted determination of oxygen in cells and tissues

Effect of nitrogen dioxide on the EPR property of lithium octa-n-butoxy 2,3-naphthalocyanine (LiNc-BuO) microcrystals

Journal	Journal of Magnetic Resonance
ISSN	10907807
Open Access	No