Electronic Structure and Conformation Properties of Halogen -Substituted Acetyl Acrylic Anhydrides, CX₃C(O)OC(O)CHCH₂ (X = H, F, or Cl)

Acetyl acrylic anhydride (CH₃C(O)OC(O)CHCH₂) and its halogen-substituted derivatives (CF₃C(O)OC(O)CHCH₂ and CCl₃C(O)OC(O)CHCH₂) were prepared by the heterogeneous reaction of gaseous CH₂CHC(O)Cl with CX₃C(O)OAg (X = H, F, or Cl). The molecular conformations and electronic structure of these three compounds were investigated by HeI photoelectron spectroscopy, photoionization mass spectroscopy, FT-IR, and theoretical calculations. They were theoretically predicted to prefer the [ss-c] conformation, with each CO bond syn with respect to the opposite O–C bond and the CC bond in cis orientation to the adjacent CO bond. The experimental first vertical ionization potential for CH₃C(O)OC(O)CHCH₂, CF₃C(O)OC(O)CHCH₂, and CCl₃C(O)OC(O)CHCH₂ was determined to be 10.91, 11.42, and 11.07 eV, respectively. In this study, the rule of the conformation properties of anhydride XC(O)OC(O)Y was improved by analyzing the different conformations of anhydrides with various substitutes