Spectroscopy and heats of formation of CXI (X = Br, Cl, F) iodocarbenes: quantum chemical characterisation of the X̃(1 A′), ã(3 A″) and Ã(1 A″) states

Bacskay, George B.

doi:10.1080/00268976.2014.1000991

Cited by 9 publications

(7 citation statements)

References 66 publications

(94 reference statements)

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“…A similar approach to Feller et al, but with smaller basis sets and a simpler extrapolation technique, was used by Bacskay − in studies of iodine and bromine containing carbenes. The spin-orbit coupling corrections to the molecular energies, regarded as critical in these systems, were computed by a pseudopotential technique, whereby the Breit–Pauli spin-orbit operator is approximated by an effective one-electron Fock operator in a basis of selected CASSCF or MRCI states.…”

Section: Introductionmentioning

confidence: 99%

Active Thermochemical Tables: Enthalpies of Formation of Bromo- and Iodo-Methanes, Ethenes and Ethynes

et al. 2023

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The thermochemistry of halocarbon species containing iodine and bromine is examined through an extensive interplay between new Feller−Peterson− Dixon (FPD) style composite methods and a detailed analysis of all available experimental and theoretical determinations using the thermochemical network that underlies the Active Thermochemical Tables (ATcT). From the computational viewpoint, a slower convergence of the components of composite thermochemistry methods is observed relative to species that solely contain first row elements, leading to a higher computational expense for achieving comparable levels of accuracy. Potential systematic sources of computational uncertainty are investigated, and, not surprisingly, spin-orbit coupling is found to be a critical component, particularly for iodine containing molecular species. The ATcT analysis of available experimental and theoretical determinations indicates that prior theoretical determinations have significantly larger uncertainties than originally reported, particularly in cases where molecular spin-orbit effects were ignored. Accurate and reliable heats of formation are reported for 38 halogen containing systems, based on combining the current computations with previous experimental and theoretical work via the ATcT approach.

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Section: Introductionmentioning

confidence: 99%

Active Thermochemical Tables: Enthalpies of Formation of Bromo- and Iodo-Methanes, Ethenes and Ethynes

et al. 2023

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“…Based on C 2 F 3 I dissociation limits determined in previous VMI experiments [28], available dissociation limit/thermochemistry data [29][30][31], and the vibrational constants reported in the literature [31][32][33][34][35][36][37][38], the energetic fragmentation thresholds of C 2 F 3 I can be estimated. Of note here are the thresholds for C 2 F 3 + I( 2 P 3/2 ) (3.20±0.05 eV), CF 2 +CFI (4.6±0.1 eV), and CF 2 + CF + I( 2 P 3/2 ) (6.6±0.1 eV) production; all of which are accessible following single-photon excitation at 7.71 eV and potential signatures of which are observed in the data shown in Figs.…”

Section: Spectroscopy and Dynamicsmentioning

confidence: 99%

Time-resolved multi-mass ion imaging: femtosecond UV-VUV pump-probe spectroscopy with the PImMS camera

Forbes,

Makhija,

Veyrinas

et al. 2017

Preprint

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The Pixel-Imaging Mass Spectrometry (PImMS) camera allows for 3D charged particle imaging measurements, in which the particle time-of-flight is recorded along with (x, y) position. Coupling the PImMS camera to an ultrafast pump-probe velocity-map imaging spectroscopy apparatus therefore provides a route to time-resolved multi-mass ion imaging, with both high count rates and large dynamic range, thus allowing for rapid measurements of complex photofragmentation dynamics. Furthermore, the use of vacuum ultraviolet wavelengths for the probe pulse allows for an enhanced observation window for the study of excited state molecular dynamics in small polyatomic molecules having relatively high ionization potentials. Herein, preliminary time-resolved multi-mass imaging results from C2F3I photolysis are presented. The experiments utilized femtosecond UV and VUV (160.8 nm and 267 nm) pump and probe laser pulses in order to demonstrate and explore this new time-resolved experimental ion imaging configuration. The data indicates the depth and power of this measurement modality, with a range of photofragments readily observed, and many indications of complex underlying wavepacket dynamics on the excited state(s) prepared.

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“…Dissociation resulting in a loss of Br is particularly relevant to atmospheric ozone chemistry as the Br atom is much more destructive to ozone than the other halogen atoms − including the Cl atom. Bromine-containing halocarbons especially these bromine-substituted carbenes are the important subject of the experimental and theoretical studies in recent decades. − Herein, we focus on CBr 2 carbene.…”

Section: Introductionmentioning

confidence: 99%

“…As the special nature of the lowest singlet state and triplet state have been reported, information on the ground singlet state, the lowest triplet state, and energy separation between them is essential in understanding the chemistry of these halocarbons. Experimental − ,− and theoretical − investigations on the lowest three states and energy gaps between them (the Ã ← X̃ state adiabatic transition energy ( T 00 ) and the ã ← X̃ state adiabatic transition energy (S–T gap)) have been carried out in the past decades. However, the T 00 of CBr 2 are controversial as different groups have indicated that the T 00 are 14962 cm –1 , 14885 cm –1 , 15092 cm –1 , and 15278 cm –1 , by analysis of the laser-induced fluorescence spectra in the latest decades.…”

Section: Introductionmentioning

confidence: 99%

Theoretical Study on the Spectroscopic Properties and Photodissociation Mechanism of Dibromocarbene

Sun,

Shan,

Miao

et al. 2023

J. Phys. Chem. A

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Detailed calculations on the electronic states of dibromocarbene (CBr2) herein are presented. First, the spectroscopic properties of the electronic states including geometry parameters, harmonic vibrational frequencies and transition energies of the lowest electronic states of the neutral radical were calculated in detail using the internally contracted multireference configuration interaction methods including Davidson correction (icMRCI+Q) with correlation consistent basis sets of aug-cc-pVXZ (X = T, Q, 5). Second, as CBr2 including two Br atoms, the Spin–Orbit Coupling (SOC) effect on the spectroscopic parameters and the one-dimensional cuts of the potential energy surface (PESs) of the lowest three states were studied. The barrier to linearity and dissociation of the singlet state were discussed. Third, the one-dimensional cuts along with the vertical transition energy (VTE), the oscillator strength, and so on of the electronic states related to the several lowest dissociation limits of CBr2 were calculated at the icMRCI+Q/aug-cc-pVTZ level. Based on the computed results of the electronic states of the radical, the photodissociation mechanism in the UV region were discussed in detail. The ab initio calculations are compared with the previous theoretical and experimental data and are in good agreement. The present work will provide a comprehensive understanding on the electronic structures and dissociation dynamics for the electronic states of the CBr2 radical.

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Spectroscopy and heats of formation of CXI (X = Br, Cl, F) iodocarbenes: quantum chemical characterisation of the X̃(¹ A′), ã(³ A″) and Ã(¹ A″) states

Cited by 9 publications

References 66 publications

Active Thermochemical Tables: Enthalpies of Formation of Bromo- and Iodo-Methanes, Ethenes and Ethynes

Active Thermochemical Tables: Enthalpies of Formation of Bromo- and Iodo-Methanes, Ethenes and Ethynes

Time-resolved multi-mass ion imaging: femtosecond UV-VUV pump-probe spectroscopy with the PImMS camera

Theoretical Study on the Spectroscopic Properties and Photodissociation Mechanism of Dibromocarbene

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