T. Tsuji et al., Molecular structure and torsional potential of trans-azobenzene. A gas electron diffraction study, J PHYS CH A, 105(41), 2001, pp. 9347-9353
The molecular structure of trans-azobenzene (Ph-N=N-Ph) has been determined
by gas electron diffraction. Diffraction patterns were taken at 407 K and
data analysis was made using the structural constraints obtained from MP2/6
-31+G* calculations. Vibrational mean amplitudes and shrink-age corrections
were calculated from the harmonic force constants given by a normal coordi
nate analysis. Vibrational mean amplitudes were refined as groups. The tors
ion of each phenyl ring was treated as a large amplitude vibration. The pot
ential function for torsion was assumed to be V(phi (1),phi (2)) = Sigma (i
=1,2){V-2(1 - cos 2 phi (i))/2 + V-4(1 - cos 4 phi (i))/2}, where phi (i) d
enotes the torsional angle around each N-C bond. Quantum mechanical calcula
tions were performed by taking account of two torsional motions to derive a
probability distribution function, P(phi (1),phi (2)). Because P(phi (1),p
hi (2)) = N exp(-V(phi (1),phi (2)/kT) was found to be a good approximation
at 407 K where N is a constant, it was adopted in the data analysis. The d
etermined potential constants (V-2 and V-4/kcal mol(-1)) and principal stru
cture parameters (r(g)/Angstrom, angle (alpha)/deg) with the estimated limi
ts of error (3 sigma) are as follows: V-2 = 1.7(6); V-4 = 0.6(13); r(N=N) =
1.260(8); r(N-C) = 1.427(8); <r(C-C)> = 1.399(l); <r(C-H)> = 1.102(7); ang
le NNC = 113.6(8); (angle NCCcis - angle NCCtrans)/2 = 5.0(9), where < > me
ans an average value and C-cis and C-trans denote the carbon atoms cis and
trans to the N=N bond, respectively. Thus, the stable form was found to be
planar with C-2h Symmetry. The observed structure was compared with those o
f trans-azoxybenzene (Ph-N(-O)=N-Ph) and trans-stilbene (Ph-CH=CH-Ph). The
stability of the liquid crystals with these types of molecular cores was di
scussed on the basis of the gas-phase structures of the model compounds of
cores. Nearly the same results were obtained in the data analysis using the
constraints from RHF/6-31G** ab initio calculations.