Abstract
As important as molecular electrets are for electronic materials and devices, conformational fluctuations strongly impact their macrodipoles and intrinsic properties. Herein, we employ molecular dynamics (MD) simulations with the polarizable charge equilibrium (PQEq) method to investigate the persistence length (LP) of molecular electrets composed of anthranilamide (Aa) residues. The PQEq-MD dissipates the accepted static notions about Aa macromolecules, and LP represents the shortest Aa rigid segments. The classical model with a single LP value does not describe these oligomers. Introducing multiple LP values for the same macromolecule follows the observed trends and discerns the enhanced rigidity in their middle sections from the reduced stiffness at their terminal regions. Furthermore, LP distinctly depends on solvent polarity. The Aa oligomers maintain extended conformations in nonpolar solvents with LP exceeding 4 nm, while in polar media, increased conformational fluctuations reduce LP to about 2 nm. These characteristics set key guidelines about the utility of Aa conjugates for charge-transfer systems within organic electronics and energy engineering.
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