Effect of aromatic ring fluorination on CH⋯π interactions: microwave spectrum and structure of the 1,2-difluorobenzene⋯acetylene dimer

Rotational spectra for the normal isotopic species and for six additional isotopologues of the 1,2-difluorobenzene⋯acetylene (C 6 H 4 F 2 ⋯HCCH) weakly bound dimer have been assigned in the 6–18 GHz region using chirped-pulse Fourier-transform microwave spectroscopy. This is the third complex in a s...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2016, Vol.18 (35), p.24290-24298
Hauptverfasser:	Akmeemana, Anuradha G., Kang, Justin M., Dorris, Rachel E., Nelson, Rebecca D., Anderton, Ashley M., Peebles, Rebecca A., Peebles, Sean A., Seifert, Nathan A., Pate, Brooks H.
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container_title	Physical chemistry chemical physics : PCCP
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creator	Akmeemana, Anuradha G. Kang, Justin M. Dorris, Rachel E. Nelson, Rebecca D. Anderton, Ashley M. Peebles, Rebecca A. Peebles, Sean A. Seifert, Nathan A. Pate, Brooks H.
description	Rotational spectra for the normal isotopic species and for six additional isotopologues of the 1,2-difluorobenzene⋯acetylene (C 6 H 4 F 2 ⋯HCCH) weakly bound dimer have been assigned in the 6–18 GHz region using chirped-pulse Fourier-transform microwave spectroscopy. This is the third complex in a series of fluorinated benzene⋯acetylene dimers. In 1,2-difluorobenzene⋯HCCH, the H⋯π distance (2.725(28) Å) is longer by about 0.23 Å, and the estimated binding energy ( E B = 2.3(6) kJ mol −1 ) is weaker by about 1.8 kJ mol −1 , than in the previously studied fluorobenzene⋯HCCH complex. In addition, in 1,2-difluorobenzene⋯acetylene, HCCH tips ∼46(3)° away from perpendicular to the aromatic ring, with the H nearest the ring moving away from the fluorine atoms along the C 2 axis of the monomer, while in the fluorobenzene and benzene complexes HCCH is perpendicular (benzene⋯HCCH) or nearly perpendicular (fluorobenzene⋯HCCH, ∼7° tilt) to the ring plane. Results from ab initio and DFT calculations will be compared to an experimental structure determined from rotational constants for the DCCD and five unique 13 C substituted isotopologues.
doi_str_mv	10.1039/C6CP04737H
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This is the third complex in a series of fluorinated benzene⋯acetylene dimers. In 1,2-difluorobenzene⋯HCCH, the H⋯π distance (2.725(28) Å) is longer by about 0.23 Å, and the estimated binding energy ( E B = 2.3(6) kJ mol −1 ) is weaker by about 1.8 kJ mol −1 , than in the previously studied fluorobenzene⋯HCCH complex. In addition, in 1,2-difluorobenzene⋯acetylene, HCCH tips ∼46(3)° away from perpendicular to the aromatic ring, with the H nearest the ring moving away from the fluorine atoms along the C 2 axis of the monomer, while in the fluorobenzene and benzene complexes HCCH is perpendicular (benzene⋯HCCH) or nearly perpendicular (fluorobenzene⋯HCCH, ∼7° tilt) to the ring plane. 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This is the third complex in a series of fluorinated benzene⋯acetylene dimers. In 1,2-difluorobenzene⋯HCCH, the H⋯π distance (2.725(28) Å) is longer by about 0.23 Å, and the estimated binding energy ( E B = 2.3(6) kJ mol −1 ) is weaker by about 1.8 kJ mol −1 , than in the previously studied fluorobenzene⋯HCCH complex. In addition, in 1,2-difluorobenzene⋯acetylene, HCCH tips ∼46(3)° away from perpendicular to the aromatic ring, with the H nearest the ring moving away from the fluorine atoms along the C 2 axis of the monomer, while in the fluorobenzene and benzene complexes HCCH is perpendicular (benzene⋯HCCH) or nearly perpendicular (fluorobenzene⋯HCCH, ∼7° tilt) to the ring plane. 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title	Effect of aromatic ring fluorination on CH⋯π interactions: microwave spectrum and structure of the 1,2-difluorobenzene⋯acetylene dimer
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