Infrared active phonon spectra of lithium sodium sulphate, LiNaSO4, were studied at temperatures between 20 K and 780 K. Dielectric constant [epsilon = epsilon'+ i epsilon"] and energy loss function [-Im(1/epsilon)] were obtained from Kramers-Kronig analysis. Our IR data show a more complete set of vibrational modes than previous investigations. The IR data of LiNaSO4 at 20 K are consistent with the P31c symmetry indicating that LiNaSO4 shows no structural phase transitions between 20 K and 300 K, in contrast to LiKSO4. On heating from 20 K, phonon modes related to Li and Na vibrations show a dramatic line broadening and decrease in intensity. An extra mode is recorded near 380 cm(-1) at 500 K. The absorption shows a systematic increase in intensity on further heating. These changes are attributed to anharmonic effects and Li diffusion or hopping. Dramatic spectral changes in the internal modes occur near 620 K on heating, suggesting the onset of the rotational disorder of SO4 tetrahedra, but the Li atom spectrum shows weak response to the rotational disorder. (c) 2005 Elsevier B.V. All rights reserved.