The aggregation modes of three L-phenylalanine- or D-glucose-functionalized phenylene-thiophene oligomers have been investigated by UV-Vis absorption and electronic circular dichroism (ECD) spectroscopies in different conditions of solution aggregation and thin films. ECD measurements revealed superior capability to provide information about their first level of supramolecular organization and to detect the possible co-existence of multiple aggregation pathways, very difficult to identify by using only UV-Vis absorption. The impact on the (chiro)optical response of the nature of chiral pendant group, especially in terms of intermolecular hydrogen bonding and steric hindrance, as well as that of the oligothiophene π-conjugated length will be elucidated. The ability to recognize and control different aggregation modes could be very useful for the preparation of thin films of π-conjugated oligomers with highly tunable chiroptical features in view of optical sensing and other innovative opto-electronic applications
Impact of chirality on the aggregation modes of L-phenylalanine- and D-glucose-decorated phenylene-thiophene oligomers
Alessandra OperamollaPenultimo
;Gianluigi Albano
Ultimo
2021-01-01
Abstract
The aggregation modes of three L-phenylalanine- or D-glucose-functionalized phenylene-thiophene oligomers have been investigated by UV-Vis absorption and electronic circular dichroism (ECD) spectroscopies in different conditions of solution aggregation and thin films. ECD measurements revealed superior capability to provide information about their first level of supramolecular organization and to detect the possible co-existence of multiple aggregation pathways, very difficult to identify by using only UV-Vis absorption. The impact on the (chiro)optical response of the nature of chiral pendant group, especially in terms of intermolecular hydrogen bonding and steric hindrance, as well as that of the oligothiophene π-conjugated length will be elucidated. The ability to recognize and control different aggregation modes could be very useful for the preparation of thin films of π-conjugated oligomers with highly tunable chiroptical features in view of optical sensing and other innovative opto-electronic applicationsI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.