Microwave measurements of cyclopropanecarboxylic acid and –OD isotopologue

Abstract: The microwave spectrum of cyclopropanecarboxylic acid has been measured in the 5-15 GHz region using a Flygare-Balle type, pulsed-beam Fourier-transform microwave spectrometer. These lower-frequency measurements are at a much higher resolution then the previous waveguide studies. The experimental rotational constants obtained in this study were A=7625.0432(17) MHz, B=2724.7672(8) MHz, and C=2382.0755(5) MHz. The centrifugal distortion constants determined were

“…To confirm that these splittings were indeed Doppler splittings, a 50/50 argon/neon mixture was used as the carrier gas and, as expected with the presence of argon, these Doppler splittings decreased slightly. In the study of the monomer of CPCA, there were no signs of splittings caused by internal rotation of the cyclopropane group 17,18,20 and the same seemed to hold true for the CPCA-FA dimer. Tunneling splittings were not observed, most likely because the dimer lacks the C 2vM symmetry, which may be necessary to create the symmetric double well potential with similar energies at the minima, allowing for the protons to tunnel through the energy barrier.…”

“…In the fit, the coordinates of all atoms for each monomer unit were held fixed to previously obtained structural values. 18,26 Following the results from the ab initio calculations, all atoms of formic acid had their z Cartesian coordinates fixed to the previously determined values. The z-coordinates were not set to be varied from these fixed positions from previous structural work.…”

“…16 The cyclopropanecarboxylic acid (CPCA) monomer has been studied by microwave spectroscopy previously and gas phase structural information was determined. 17,18,20 The microwave spectrum of trifluoroacetic acid-cyclopropanecarboxylic acid dimer was also measured and no tunneling splittings were observed. 19 One criterion for observing the tunneling splittings would be if the energies of the two minima in the double well potential are very close.…”

Microwave spectra and structure of the cyclopropanecarboxylic acid-formic acid dimer

“…To confirm that these splittings were indeed Doppler splittings, a 50/50 argon/neon mixture was used as the carrier gas and, as expected with the presence of argon, these Doppler splittings decreased slightly. In the study of the monomer of CPCA, there were no signs of splittings caused by internal rotation of the cyclopropane group 17,18,20 and the same seemed to hold true for the CPCA-FA dimer. Tunneling splittings were not observed, most likely because the dimer lacks the C 2vM symmetry, which may be necessary to create the symmetric double well potential with similar energies at the minima, allowing for the protons to tunnel through the energy barrier.…”

“…In the fit, the coordinates of all atoms for each monomer unit were held fixed to previously obtained structural values. 18,26 Following the results from the ab initio calculations, all atoms of formic acid had their z Cartesian coordinates fixed to the previously determined values. The z-coordinates were not set to be varied from these fixed positions from previous structural work.…”

“…16 The cyclopropanecarboxylic acid (CPCA) monomer has been studied by microwave spectroscopy previously and gas phase structural information was determined. 17,18,20 The microwave spectrum of trifluoroacetic acid-cyclopropanecarboxylic acid dimer was also measured and no tunneling splittings were observed. 19 One criterion for observing the tunneling splittings would be if the energies of the two minima in the double well potential are very close.…”

Microwave spectra and structure of the cyclopropanecarboxylic acid-formic acid dimer

“…The standard deviation of this nonlinear least-squares structure fit is 0.31 MHz. A Kraitchman analysis was also performed using the Kiesel KRA program on the low-energy CPCA monomer of all the measured 13 C substituted isotopologues and the previously measured parent and–OD isotopologues . The best-fit coordinates of the low-energy CPCA conformer are shown with the Kraitchman determined coordinates in Table .…”

“…They are important throughout biology and can be synthesized and utilized for many important reactions. , Structural information on these types of molecules is important to obtain to understand the chemistry and reactivity behind these enzymatic processes in biology or reactions performed in the lab. Infrared, Raman, microwave, and X-ray crystal structure studies have been reported previously for cyclopropanecarboxylic acid (CPCA). − To obtain a more accurate gas-phase structure, transitions from 13 C singly substituted isotopologues were needed to continue from the previous work. This work extends the microwave spectroscopic work to include these 13 C measurements and allows us to obtain a best-fit gas-phase structure of CPCA.…”

Microwave Spectrum for a Second Higher Energy Conformer of Cyclopropanecarboxylic Acid and Determination of the Gas Phase Structure of the Ground State