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The microwave spectrum of the equatorial conformer of chlorocyclopentane (1991)

Groner, P. ; Lee, Min Joo ; Durig, J. R.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 94 (1991), S. 3315-3321

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The microwave spectrum of chlorocyclopentane has been reinvestigated. The ground state and two vibrationally excited states of the equatorial conformation of c-C5H935Cl have been identified. The ground state rotational constants are A=6424.51(14) MHz, B=1832.304(6) MHz, C=1523.163(5) MHz. The spectrum of the 37Cl substituted species has also been assigned. For the previously reported axial conformer of c-C5H935Cl, additional transitions have been measured in the ground state and the first excited state of the lowest frequency motion and the spectrum of another vibrationally excited state has been assigned. The experimental rotational constants have been used to derive plausible molecular structures for both conformers. The experimental quadrupole coupling constants are compatible with the proposed structures.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.459754

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Spectra and structure of small ring compounds. Part L VIII: Structural parameters for chlorocyclobutane from combined microwave data and ab initio calculations (1991)

Durig, James R. ; Lee, Min Joo ; Little, T. Scott

Springer

Structural chemistry 2 (1991), S. 195-200

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ISSN: 1572-9001

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The structural parameters of chlorocyclobutane,c-C4H7Cl, have been obtained fromab initio Hartree-Fock calculations employing the 6–31G* basis set for both the more stable equatorial and the high energy axial conformers. The determined carbonhydrogen distances were adjusted by 0.010 Å and held fixed while a weighted least-squares adjust was used to obtain all of the heavy atom parameters for the equatorial conformer by fitting the rotational constants of nine isotopic species. The determinedr 0 parameters are:r(Cα - Cβ) = 1.535(8) År(Cβ - Cγ) = 1.548(3) År(Cα - Cl) = 1.788(9) Å $$〈 )$$ CβCαCβ, - CL = 132.0(2)°; $$〈 )$$ CβCγCβ, = 89.7(6)°; $$〈 )$$ CαCβCγ, = 87.1(2)°, and $$〈 )$$ CβCγCβ, = 88.7(2)°. These results are compared to the calculated values as well as those obtained earlier from electron diffraction and microwave studies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00676631

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Spectra and structure of small ring compounds. LIX (1992)

Durig, J. R. ; Lee, Min Joo ; Zhao, Wenyun ; [et al.]

Springer

Structural chemistry 3 (1992), S. 329-345

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ISSN: 1572-9001

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The Raman (3200 to 10 cm−1) and far infrared (380 to 60 cm−1) spectra of gaseous fluorocyclobutane,c-C4H7F, have been recorded. A series of Q-branches observed in both of these spectra beginning at 166 cm−1 with successive transitions falling to lower frequencies have been assigned to the ring puckering vibrations of both the low energy equatorial and high energy axial conformers. These data have been fit to an asymmetric potential function of the form:V (cm−1)=(1.76±0.05)103X+(4.88±0.28)104X2+(2.12 ±0.16)103 exp(−5.66±0.41)10X2 with a reduced mass function ofg 44= 0.00386−0.00295X+0.03485X2+0.1228X3 +0.3459X4, whereX is the ring puckering coordinate. Utilizing this potential, the difference between the puckering angles for the two conformers was calculated to be 4° with the equatorial conformer having the larger value of 28°. This potential function is consistent with an energy difference between the equatorial and axial forms of 447 cm−1 (1.28 kcal/mol) and a barrier to ring inversion from the equatorial to the axial conformation of 713 cm−1 (2.04 kcal/mol). Experimental values for the enthalpy difference between the two conformers have been determined for both the liquid (400±30 c−1) and gas (413±43 cm−1) from investigations of the Raman spectra at variable temperatures. The conformational stability, enthalpy difference, structural parameters, and fundamental vibrational frequencies, which have been determined experimentally, are compared to those obtained from ab initio Hartree-Fock calculations employing the 3-21G, 6-31 G*, and 6-31 G** basis sets.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00678557

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Spectra and structure of small ring compounds. Part LVFor part LIV see J. Phys. Chem. 93, 6296 (1989).-Conformational stability of bromocyclobutane from Raman and far-infrared spectra of the gasTaken in part from the thesis of M. J. Lee which will be submitted to the Department of Chemistry in partial fulfillment of the Ph.D. degree. (1989)

Durig, J. R. ; Little, T. S. ; Lee, Min Joo

Chichester [u.a.] : Wiley-Blackwell

Journal of Raman Spectroscopy 20 (1989), S. 757-763

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ISSN: 0377-0486

Keywords: Chemistry ; Analytical Chemistry and Spectroscopy

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: The Raman (3200 to 10 cm-1) and far-infrared (375 to 80 cm-1) spectra of gaseous bromocyclobutane, c-C4H7Br, have been recorded. A series of Q-branches observed in both of these spectra, beginning at 149 cm-1 with successive transitions falling to lower frequencies, have been assigned to the ring-puckering vibrations of both the low-energy equatorial and high-energy axial conformers. These data have been fit to an asymmetric potential function of the form V(cm-1) = (6.58 ± 0.21) × 105X4 - (3.27 ± 0.04) × 104X2 × (4.59 ± 0.19) × 104X3 with a reduced mass of 214 amu. Utilizing this potential, the difference between the puckering angles for the two conformers is calculated to be 6°, with the equatorial conformer having the larger value of 20°. Also from this potential function, the energy difference between the equatorial and axial forms is found to be 361 ± 20 cm-1 (1.03 kcal mol-1), with a barrier of 636 ± 20 cm-1 (1.82 kcal mol-1) to interconversion. Experimental values for the enthalpy difference between the two conformers have been determined for both the liquid (297 ± 27 cm-1) and gas (∼ 350 cm-1) from relative intensities of a pair of Raman lines over 90 and 58 °C temperature ranges respectively. These results are compared to the corresponding quantities for some similar molecules.

Additional Material: 5 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jrs.1250201202

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Raman and infrared spectra, conformational stability and ab initio calculations for chlorocarbonyl isocyanate (1992)

Sullivan, J. F. ; Nandy, S. K. ; Lee, Min Joo ; [et al.]

Chichester [u.a.] : Wiley-Blackwell

Journal of Raman Spectroscopy 23 (1992), S. 51-60

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ISSN: 0377-0486

Keywords: Chemistry ; Analytical Chemistry and Spectroscopy

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: The Raman (2500 - 10 cm-1) and infrared (2600 - 50 cm-1) spectra of chlorocarbonyl isocyanate, CIC(O)NCO, were recorded for the gas and solid. Additionally, the Raman spectrum of the liquid was recorded and qualitative depolarization values were obtained. The observed bands were assigned in terms of the more stable trans conformer (isocyanate grouptrans to the carbonyl bond) and less stable cis conformer. A conformer pair observed at 788 and 636 cm-1 in the Raman spectrum of the gas (775 and 634 cm-1 for the liquid) and assigned to the cis and trans COCI rock, respectively, was used to determine experimentally a ΔH value of 254 ± 48 cm-1 (726 ± 137 cal mol-1) and 230 ± 28 cm-1 (658 ± 80 cal mol-1) for the gas and liquid, respectively. In the far-infrared spectrum of the gas, a series of three Q-branches beginning at 83 cm-1 was observed and assigned to the fundamental torsional transition and two excited states transitions for the trans conformer. Using these three transitions and the experimentally determined ΔH value, a potential function was obtained for the interconversion of the two conformers with the following coefficients (in cm-1): V1 = -330 ± 50, V2 = 1025 ± 70, and V3 = 67 ± 40 and a trans to cis barrier of 1230 ± 150 cm-1 (3.52 ± 0.43 kcal mol-1) and a torsional frequency for the cis conformer of 69 ± 2 cm-1. The barrier to internal rotation and fundamental vibrational frequencies which were determined experimentally were compared with those obtained from ab initio Hartree - Fock gradient calculations utilizing the 6-31G* basis set. These results are compared with some previous results on this molecule.

Additional Material: 5 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jrs.1250230107

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Spectra and structure of small ring compounds. Part LVIFor Part LV, see J. Raman spectrosc. 20, 757 (1989). - Raman and far-infrared spectra, conformational stability vibrational assignments, normal coordinate analysis and ab initio calculations of chlorocyclobutane (1990)

Durig, J. R. ; Lee, Min Joo ; Little, T. S.

Chichester [u.a.] : Wiley-Blackwell

Journal of Raman Spectroscopy 21 (1990), S. 529-542

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ISSN: 0377-0486

Keywords: Chemistry ; Analytical Chemistry and Spectroscopy

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: The Raman (3100 to 10 cm-1) and far-infrared (374 to 74 cm-1) spectra have been recorded of gaseous chlorocyclobutane. A series of Q-branches observed in both of these spectra beginning at 158 cm-1 with successive transition falling to lower frequencies have been assigned to the ring puckering vibrations of both the low-energy equatorial and high-energy axial conformers. These data have been fitted to an asymmetric potential function of the form V (cm-1) = (5.13 ± 0.34) × 105X4 - (3.35 ± 0.14) × 104X2 + (3.79 ± 0.30) × 104X3 with a reduced mass of 198 amu. Utilizing this potential, the difference between the puckering angles for the two conformers was calculated to be 5° with the equatorial conformer having the larger value of 22°. This potential function is consistent with an energy difference between the equatorial and axial forms of 449 cm-1 (1.28 kcal mol-1) and a barrier to ring inversion of 827 cm-1 (2.36 kcal mol-1). Experimental values for the enthalpy difference between the two conformers have been determined for both the liquid and gas from relative intensities of a pair of Raman lines. The conformational stability, barrier to ring inversion, ro structural parameters, and fundamental vibrational frequencies, which have been determined experimentally, are compared with those obtained from ab initio Hartree-Fock calculations employing both the 3-21G* basis sets, and to the corresponding quantities obtained for some similar molecules. The ab initio results indicate that the puckering angle for the equatorial conformers should be about 30°, with that for the axial conformer being about 8° smaller.

Additional Material: 3 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jrs.1250210903

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