Aa. Mrse et al., PULSED BR-81 NUCLEAR-QUADRUPOLE RESONANCE SPECTROSCOPY OF BROMINATED FLAME RETARDANTS AND ASSOCIATED POLYMER BLENDS, Chemistry of materials, 10(5), 1998, pp. 1291-1300
The dispersion of brominated flame retardants in polymers is monitored
with Br-81 nuclear quadrupole resonance (NQR) using a pulse NQR spect
rometer. The NQR spectrometer consists of a homemade 10-300 MHz single
-channel NMR console coupled to a broadly tunable probe. The probe is
a loop-gap resonator usable from 220 to 300 MHz and is automatically t
uned over any 5 MHz region with a stepping motor and a radio frequency
bidirectional coupler. Br-81 NQR spectra of several brominated aromat
ic flame retardants, as pure materials and in polymers, were recorded
in the range of 227 to 256 MHz in zero applied magnetic field. Two fac
tors affect the Br-79/81 NQR transition frequencies in brominated arom
atics: electron-withdrawing substituents on the ring and intermolecula
r contacts with other bromine atoms in the crystal structure. An exist
ing model for substituents is updated, and a point char ge model for t
he intermolecular contacts is developed. In this study, we exploit the
Br-81 NQR transition frequency dependence on intermolecular contacts
to learn how a flame retardant is dispersed in a polymer matrix. Addit
ionally, the crystal structure for 1-bromo-4-(4-bromophenoxy)benzene a
nd the 100 K structure of 1,2,4,5-tetrabromobenzene were determined.