Unimolecular decomposition of NO3: The NO+O2 threshold regime

Mikhaylichenko, K.; Riehn, Christoph; Valachovic, L.; Sanov, Andrei; Wittig, C.

doi:10.1063/1.472527

Cited by 39 publications

(50 citation statements)

References 41 publications

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“…A relatively recent study 4 of the absorption spectrum of jetcooled NO 3 permitted resolution of structure in the band origin and supported the occurrence of vibronic coupling with levels of the ground state. Other studies [5][6][7] confirmed that NO 3 is strongly predissociated in higher levels of its B state. Because of the prominence and distinctive position of the band origin, it has often been used to map the behavior of NO 3 in gas-phase reaction systems.…”

Section: Introductionmentioning

confidence: 60%

The infrared spectroscopy and photochemistry of NO3 trapped in solid neon

Jacox¹,

Thompson²

2008

The Journal of Chemical Physics

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NO(3) can be stabilized in solid neon either by codeposition at 4.3 K of a Ne:O(2) mixture with a Ne:NO mixture that has been passed through a microwave discharge or, in higher yield, by codeposition of a Ne:NO mixture with a Ne:O(2) mixture, followed by annealing of the deposit at approximately 7 K and exposure of the solid to near ultraviolet radiation. All of the previously reported bands of NO(3) between 700 and 3000 cm(-1) were observed, most with neon-matrix shifts of less than 2.5 cm(-1). The infrared spectra of eight isotopic species of NO(3) were obtained. The observed isotopic shifts demonstrate the occurrence of extensive mixing of ground-state levels of e(') symmetry and their strong vibronic interaction with the B (2)E(') state. Photodissociation of NO(3) by irradiation of the deposit at wavelengths longer than 520 nm leads to new absorptions near the fundamentals of NO and O(2) and other new absorptions at relatively low frequencies. These absorptions were depleted and NO(3) regenerated by subsequent near ultraviolet irradiation of the deposit, suggesting the stabilization of a weakly bound NO(O(2)) complex in solid neon.

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Section: Introductionmentioning

confidence: 60%

The infrared spectroscopy and photochemistry of NO3 trapped in solid neon

Jacox¹,

Thompson²

2008

The Journal of Chemical Physics

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“…CS/Ag + ion composite film shows a new band about 821 cm -1 assigned to NO 3 -absorption, which confirms the existence of NO 3 -as a residual ion from silver salt. Such band is not observed in CS/AgNP films, likely due to thermal decomposition of NO 3 to NO and O 2 [46]. …”

Section: Ftir Analysismentioning

confidence: 67%

Chitosan/silver nanocomposites: Synergistic antibacterial action of silver nanoparticles and silver ions

Kumar-Krishnan

Prokhorov

Hernández‐Iturriaga

et al. 2015

European Polymer Journal

242

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“…Another possible reaction is unimolecular decomposition of NO 3 at irradiation stages. Indeed, a reaction NO 3 -NO þO 2 is well known from atmospheric chemistry (Davidson et al, 1990;Mikhaylichenko et al, 1996) and it leads to generation of the products being non-detectable by EPR method. However, it is not clear, whether such a reaction occurs at low temperatures.…”

Section: Generation Of Radicals Under Irradiationmentioning

confidence: 99%