Conformation-Specific Spectroscopy of 3-Benzyl-1,5-hexadiyne

Abstract: 3-Benzyl-1,5-hexadiyne (BHD) was studied by a combination of methods, including resonance-enhanced-two-photon ionization, UV-UV hole-burning spectroscopy, resonant ion-dip infrared spectroscopy, and rotational band contour analysis. There are five conformations of BHD observed in the expansion with their 1<-- S0 origins occurring at 37520, 37565, 37599, 37605, and 37631 cm(-1). DFT calculations predict six low energy conformations. Conformational assignments have been made by comparison of the experimental inf… Show more

“…In the spirit of exploring potential energy surfaces of increasing complexity, − we have extended our recent studies 7 of m - and p -ethynylstyrene that possess one flexible vinyl coordinate to m - and p -divinylbenzene, which contain two such coordinates. With the vinyl group's inherent structural asymmetry, this double substitution also produces more isomeric possibilities.…”

Isomer-Specific Ultraviolet Spectroscopy of m- and p-Divinylbenzene

“…In the spirit of exploring potential energy surfaces of increasing complexity, − we have extended our recent studies 7 of m - and p -ethynylstyrene that possess one flexible vinyl coordinate to m - and p -divinylbenzene, which contain two such coordinates. With the vinyl group's inherent structural asymmetry, this double substitution also produces more isomeric possibilities.…”

Isomer-Specific Ultraviolet Spectroscopy of m- and p-Divinylbenzene

Infrared spectroscopy of size-selected neutral clusters combined with vacuum-ultraviolet-photoionization mass spectrometry