Molecular dynamics in semifluorinated side-chain polyesters as studied by broadband dielectric spectroscopy

“…The copolymers where the side chains are organized follow the additive rule, however the values in these samples are lower than those expected taking into account the value observed for the 11 of dielectric strength due to cancellation of dipole moments. A relaxation with similar characteristics has already been observed in systems having fluoroalkanes as side chains and has been ascribed to motions of CF 3 -groups [19,20,22,29].…”

“…Results of molecular dynamics have been reported for sf alkanes [15][16], as well as for various polymers with attached sf chains as side chains either as homopolymers [17][18][19][20] or as copolymers [21][22][23]. The molecular mobility of the chain backbone, as well as that of the sf side chains, ranging from local to segmental motions was followed and related to 28/[282] S. Kripotou et al the structure of the systems.…”

Semifluorinated Methacrylate Random Copolymers: Phase Transitions and Molecular Dynamics

“…The copolymers where the side chains are organized follow the additive rule, however the values in these samples are lower than those expected taking into account the value observed for the 11 of dielectric strength due to cancellation of dipole moments. A relaxation with similar characteristics has already been observed in systems having fluoroalkanes as side chains and has been ascribed to motions of CF 3 -groups [19,20,22,29].…”

“…Results of molecular dynamics have been reported for sf alkanes [15][16], as well as for various polymers with attached sf chains as side chains either as homopolymers [17][18][19][20] or as copolymers [21][22][23]. The molecular mobility of the chain backbone, as well as that of the sf side chains, ranging from local to segmental motions was followed and related to 28/[282] S. Kripotou et al the structure of the systems.…”

Semifluorinated Methacrylate Random Copolymers: Phase Transitions and Molecular Dynamics

“…Similarly to the α relaxation, the temperature dependence of the relaxation times can be described by the VFT law, indicating that the δ SF process is also a glass‐transition relaxation. From X‐ray scattering characterization,10–12, 27, 40 the SF side chains are found to microphase‐separate, forming nanodomains separated from the main chain. The δ SF relaxation can therefore be considered an independent glass transition of the SF domain.…”

“…More recent work has been devoted to obtaining additional understanding of the underlying dynamics of the materials, especially the backbone. A few investigations have been conducted with dendrimers,24–26 polyesters,27 and poly(styrene‐ b ‐butadiene)28 as backbones with SF side chains. It is the intention of this work to extend the studies to other backbone systems.…”

Molecular dynamics in semifluorinated‐side‐chain polysulfone studied by broadband dielectric spectroscopy

“…Several studies have examined the dielectric behavior of either MCLCPs or side chain liquid crystalline polymers (SCLCPs) [5][6][7][8][9][10][11][12][13], but few studies have been conducted on smectic C A MCLCP [11,14,15]. These investigations have demonstrated that LCPs exhibit multiple relaxations in both the glassy and liquid crystalline state(s).…”

Dynamics of main-chain liquid crystalline polysiloxanes containing p-phenyleneterephthalate mesogens