Electronic structure of triatomic interhalogens

De, B. K.; Sannigrahi, A. B.

doi:10.1002/qua.560220220

Cited by 9 publications

(4 citation statements)

References 16 publications

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“…[17][18][19][20][21][22][23] Emission spectra attributable to Cl 3 were observed by Kawasaki et al 14 and Wright et al 15 These data were in reasonable agreement with each other. An IR spectrum of Cl 3 in a Kr matrix was reported by Nelson and Pimentel.…”

Section: Introductionsupporting

confidence: 72%

Direct observation and reactions of Cl3 radical

Enami

Yamanaka

Hashimoto

et al. 2006

The Journal of Chemical Physics

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The broad absorption of Cl 3 radical was observed between 1150 and 1350 nm using cavity ring-down spectroscopy at 213-265 K and 50-200 Torr with He, N 2 , Ar, or SF 6 diluents. The absorption intensity of Cl 3 increased at lower temperature and higher pressure. SF 6 was the most efficient diluent gas. The temperature dependent equilibrium constants for Cl 3 formation from Cl+ Cl 2 were theoretically calculated at the MP4SDQ/ 6-311+ G͑d͒ level. Observed decay time profiles of Cl 3 and the pressure dependence of Cl 3 formation are explained by the equilibrium reaction and a decay reaction of Cl+ Cl 3 .

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Section: Introductionsupporting

confidence: 72%

Direct observation and reactions of Cl3 radical

Enami

Yamanaka

Hashimoto

et al. 2006

The Journal of Chemical Physics

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“…Following this work, Wright et al suggested that a 370−420 nm emission band, observed when Cl 2 was photodissociated under relatively high-pressure conditions, might also originate from Cl 3 . In parallel with the experimental efforts there have been many attempts to calculate potential energy surfaces for trihalogens using ab-initio ,− and semiempirical methods. ,− …”

Section: Introductionmentioning

confidence: 99%

“…In parallel with the experimental efforts there have been many attempts to calculate potential energy surfaces for trihalogens using ab-initio 15,[24][25][26] and semiempirical methods. 9,[27][28][29][30][31][32] Recently, additional interest in the trihalogens has been generated by novel time-resolved studies of the Br + I 2 reaction. 1,[33][34][35][36] From the results on this system, it appears that trihalogens, accessed through photodissociation of HX-YZ complexes, may be especially suitable for real-time studies of reaction dynamics.…”

Section: Introductionmentioning

confidence: 99%

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Photolysis of Matrix-Isolated HCl−Cl₂ Complexes: Electronic Absorption and Emission Spectra Provisionally Assigned to Cl₃

Lawrence

Fulgum

1996

J. Phys. Chem.

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A new visible emission system, tentatively assigned to the trichloride radical, has been observed in a solid Ar matrix. Cl 3 was prepared by photodissociation of HCl and permanent cage exit of the H atom from HCl/Cl 2 dimer trapping sites. Following photodissociation at 193 nm, laser excitation and wavelength-resolved fluorescence measurements were used to examine the photoproducts. Excitation at 308 nm produced a broad emission centered at 470 nm. This band was emitted with a lifetime of 44 ( 2 µs. An excitation spectrum, recorded by monitoring the 470 nm emission, exhibited a single broad peak centered at 312 nm. The emission spectrum and lifetime were in agreement with gas phase results that were previously attributed to Cl 3 [Kawasaki et al. J. Phys. Chem. 1989, 93, 7571]. The excitation spectrum correlates with the 320 nm absorption band of the isoelectronic F 2 Cl radical [Prochaska and Andrews, J. Inorg. Chem. 1977, 16, 339]. Additional elements of circumstantial evidence that support assignment of the matrix observations to Cl 3 are presented.

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Ab initio scf and Ci study of the electronic structure of the trichlorine radical

Sannigrahi

Peyerimhoff

1986

Int J of Quantum Chemistry

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Ab initio SCF and CI calculations using a double-zeta plus polarization basis set have been canied out on the hichlorine radical CI3 to determine its electronic structure. The minimum in energy is determined for a bent structure at a bond angle of 146" and bond lengths of 2.18 8, (SCF) or 2.22 A (a). At linear geometry a *nu state is found to be lowest, approximately 7 kcal above the bent minimum, followed by a 'nl state, which is around 4 kcal higher. This situation suggests that already for low quantum numbers a complex vibrational pattern in the C13 infrared spectrum is to be expected due to spinarbit coupling as well as coupling of electronic, vibrational, and rotational motion.

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Electronic structure of triatomic interhalogens

Cited by 9 publications

References 16 publications

Direct observation and reactions of Cl3 radical

Direct observation and reactions of Cl3 radical

Photolysis of Matrix-Isolated HCl−Cl₂ Complexes: Electronic Absorption and Emission Spectra Provisionally Assigned to Cl₃

Ab initio scf and Ci study of the electronic structure of the trichlorine radical

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Electronic structure of triatomic interhalogens

Cited by 9 publications

References 16 publications

Direct observation and reactions of Cl3 radical

Direct observation and reactions of Cl3 radical

Photolysis of Matrix-Isolated HCl−Cl2 Complexes: Electronic Absorption and Emission Spectra Provisionally Assigned to Cl3

Ab initio scf and Ci study of the electronic structure of the trichlorine radical

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Photolysis of Matrix-Isolated HCl−Cl₂ Complexes: Electronic Absorption and Emission Spectra Provisionally Assigned to Cl₃