The OCS Trimer:  Isotopic Studies, Structure, and Dipole Moment

Peebles, Rebecca A.; Kuczkowski, Robert L.

doi:10.1021/jp9912556

Cited by 26 publications

(37 citation statements)

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“…The largest Stark shifts were in the range of 600-800 kHz for several components, and the greatest c contributions were about 30-50 kHz. Although c -type transitions might be observable, we were unable to detect any after lengthy 3 30 10 481.6097 0.0053 4 31 3 22 10 527.2685 0.0124 4 40 3 31 10 613.4085 0.0005 4 22 3 13 16 5 05 9263.0436 Ϫ0.0040 6 15 5 24 10 238.2039 0.0112 6 25 5 24 10 246.1632 Ϫ0.0020 6 15 5 14 10 274.4945 0.0152 6 25 5 14 10 282.4544 0.0026 7 07 6 16 10 723.2229 Ϫ0.0016 7 17 6 06 10 723.3717 0.0013 7 26 6 25 11 715.0731 Ϫ0.0057 7 16 6 15 11 721.4729 Ϫ0.0009 7 26 6 15 11 723.0536 0.0023 8 08 7 17 12 183.9324 Ϫ0.0046 8 18 7 07 12 183.9623 0.0022…”

Section: B Dipole Momentmentioning

confidence: 68%

“…The cause of these problems involving S 18 O 2 is unknown. It is possible that 18 O and 16 O exchange readily from water present in the sample manifold or some other process may have lowered the stated enrichment.…”

Section: A Spectramentioning

confidence: 71%

“…[12][13][14][15][16][17][18] This arrangement presumably maximizes the dispersion interaction while the twisting and turning away from three parallel sticks further balances the electrostatic and repulsive interactions. These experimental results have shown good qualitative, and occasionally quantitative, agreement with structures predicted by a semiempirical model which includes electrostatic, dispersion, and repulsion terms.…”

Section: Discussionmentioning

confidence: 99%

“…The complex is the first trimer containing the bent molecule SO 2 to be studied by this technique, although many SO 2 containing dimers have been studied, 2,25-27,33-35 as have many trimers containing only linear molecules or combinations of linear molecules with rare gas atoms or occasionally water. [13][14][15][16]18,[36][37][38] Modeling with a semiempirical program that includes electrostatic, dispersion and repulsion terms was helpful in predicting a structure that was a qualitatively good approximation to the experimental configuration. This model was a useful tool in the assignment of the spectra of both the normal species and isotopomers.…”

Section: Discussionmentioning

confidence: 99%

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( N 2 O ) 2 ⋅ SO 2 : Rotational spectrum and structure of the first van der Waals trimer containing sulfur dioxide

Peebles

Kuczkowski

2000

The Journal of Chemical Physics

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Articles you may be interested inEffect of solvent on molecular conformation: Microwave spectra and structures of 2-aminoethanol van der Waals complexes Structure and properties of the weakly bound cyclic trimer ( H 2 O ) 2 HBr observed by rotational spectroscopy Rotational spectrum, structure and modeling of the SO 2 -CS 2 complex J. Chem. Phys. 110, 6804 (1999); 10.1063/1.478584Fourier-transform microwave spectrum, structure, harmonic force field, and hyperfine constants of sulfur chloride fluoride, ClSFThe trimer (N 2 O) 2 •SO 2 has been studied by Fourier transform microwave spectroscopy. The rotational constants for the normal species are Aϭ1369.1014(11) MHz, Bϭ1115.5816(11) MHz, and Cϭ730.5790(4) MHz. Five isotopomers of the complex have been studied, allowing a determination of its structure. The configuration aligns the centers-of-mass of the three monomers in an approximate equilateral triangle. The monomers twist relative to this plane so that the two N 2 O's are intermediate between T-shaped and crossed rather than the usual slipped-parallel planar. The SO 2 is oriented so that its oxygens are straddling one N 2 O ͑similar to the N 2 O•SO 2 dimer͒, while its sulfur is closest to the oxygen end of the other N 2 O. The dipole moment of ( 15 N 2 O) 2•SO 2 was measured, giving a ϭ0.606(1) D, b ϭ1.256(2) D, c ϭ0.058(2) D, and total ϭ1.396(2) D. A semiempirical model has been used to predict the trimer structure, and comparison is made with this model as well as with the dimer N 2 O•SO 2 .

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Section: B Dipole Momentmentioning

confidence: 68%

Section: A Spectramentioning

confidence: 71%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

( N 2 O ) 2 ⋅ SO 2 : Rotational spectrum and structure of the first van der Waals trimer containing sulfur dioxide

Peebles

Kuczkowski

2000

The Journal of Chemical Physics

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“…Table IV also gives the experimental r 0 structure from Ref. 10, and the theoretical equilibrium structures from Ref. 14 and the present work, as discussed in Sec.…”

Section: A Ocs Trimermentioning

confidence: 85%

Theory vs. experiment for molecular clusters: Spectra of OCS trimers and tetramers

Evangelisti

Pérez

Seifert

et al. 2015

The Journal of Chemical Physics

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All singly substituted (13)C, (18)O, and (34)S isotopomers of the previously known OCS trimer are observed in natural abundance in a broad-band spectrum measured with a chirped-pulse Fourier transform microwave spectrometer. The complete substitution structure thus obtained critically tests (and confirms) the common assumption that monomers tend to retain their free structure in a weakly bound cluster. A new OCS trimer isomer is also observed, and its structure is determined to be barrel-shaped but with the monomers all approximately aligned, in contrast to the original trimer which is barrel-shaped with two monomers aligned and one anti-aligned. An OCS tetramer spectrum is assigned for the first time, and the tetramer structure resembles an original trimer with an OCS monomer added at the end with two sulfur atoms. Infrared spectra observed in the region of the OCS ν1 fundamental (≈2060 cm(-1)) are assigned to the same OCS tetramer, and another infrared band is tentatively assigned to a different tetramer isomer. The experimental results are compared and contrasted with theoretical predictions from the literature and from new cluster calculations which use an accurate OCS pair potential and assume pairwise additivity.

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Matrix‐Isolated Hydrogen‐Bonded and Van der Waals Complexes of Hydrogen Peroxide with OCS and CS₂

2012

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Matrix isolation spectroscopy has been combined with ab initio calculations to characterize the 1:1 complexes of H2O2 with OCS and CS2. The infrared spectra of the argon and nitrogen matrices doped with H2O2 and OCS or CS2 have been measured and analyzed. The geometries of the complexes were optimized at the MP2/6-311++G(3df,3pd) level of theory. Four structures were found for the OCS-H2O2 complex and five for the CS2-H2O2 one; every pair of the corresponding structures showed close correspondence. For every optimized structure the interaction energy was partitioned according to the SAPT Scheme and the topological distribution of the charge density (AIM theory) was performed. The SAPT analysis and AIM results indicate that only one complex among the nine optimized ones is stabilized by the hydrogen bonding, namely the OCS-H2O2 one with the OH group of H2O2 bonded to an oxygen atom of OCS. The other structures are stabilized by van der Waals interaction. The spectra analysis evidences that at least two types of the complexes are trapped in the argon matrices including the most stable ones: hydrogen bonded structure in the case of the OCS-H2O2 complex and the structure stabilized by the S···H and C···O interactions in the case of the CS2-H2O2 complex. The solid nitrogen environment triggers the formation of the structures of C2v symmetry with a sulfur atom of OCS or CS2 directed toward the center of O-O bond of H2O2, stabilized by S···O interactions.

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The OCS Trimer: Isotopic Studies, Structure, and Dipole Moment

Cited by 26 publications

References 26 publications

( N 2 O ) 2 ⋅ SO 2 : Rotational spectrum and structure of the first van der Waals trimer containing sulfur dioxide

( N 2 O ) 2 ⋅ SO 2 : Rotational spectrum and structure of the first van der Waals trimer containing sulfur dioxide

Theory vs. experiment for molecular clusters: Spectra of OCS trimers and tetramers

Matrix‐Isolated Hydrogen‐Bonded and Van der Waals Complexes of Hydrogen Peroxide with OCS and CS₂

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The OCS Trimer: Isotopic Studies, Structure, and Dipole Moment

Cited by 26 publications

References 26 publications

( N 2 O ) 2 ⋅ SO 2 : Rotational spectrum and structure of the first van der Waals trimer containing sulfur dioxide

( N 2 O ) 2 ⋅ SO 2 : Rotational spectrum and structure of the first van der Waals trimer containing sulfur dioxide

Theory vs. experiment for molecular clusters: Spectra of OCS trimers and tetramers

Matrix‐Isolated Hydrogen‐Bonded and Van der Waals Complexes of Hydrogen Peroxide with OCS and CS2

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Product

Resources

About

Matrix‐Isolated Hydrogen‐Bonded and Van der Waals Complexes of Hydrogen Peroxide with OCS and CS₂