Abstract Since the first publication on this subject in 1963, {NMR} in liquid crystalline systems has been a wide and active field of research in many branches of chemistry, physics, biology, and materials science. Indeed, thanks to the wealth of exploitable nuclei and interactions, {NMR} spectroscopy has revealed a powerful means of probing structure and dynamics of molecules dissolved in liquid crystals. Moreover, {NMR} spectroscopy has been successfully employed to investigate properties of mesophases themselves, such as their molecular organization and orientational ordering, translational and rotational motions, and response to external stimuli such as temperature, pressure, and magnetic and electric fields. {NMR} spectroscopy of liquid crystals and of solutes dissolved in liquid crystals is described. The molecular structure and dynamic information that can be obtained from such studies is outlined.
Liquid Crystals and Liquid Crystal Solutions Studied by NMR
L Calucci;
2014
Abstract
Abstract Since the first publication on this subject in 1963, {NMR} in liquid crystalline systems has been a wide and active field of research in many branches of chemistry, physics, biology, and materials science. Indeed, thanks to the wealth of exploitable nuclei and interactions, {NMR} spectroscopy has revealed a powerful means of probing structure and dynamics of molecules dissolved in liquid crystals. Moreover, {NMR} spectroscopy has been successfully employed to investigate properties of mesophases themselves, such as their molecular organization and orientational ordering, translational and rotational motions, and response to external stimuli such as temperature, pressure, and magnetic and electric fields. {NMR} spectroscopy of liquid crystals and of solutes dissolved in liquid crystals is described. The molecular structure and dynamic information that can be obtained from such studies is outlined.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
