TITLE:
Rylene Dielectrophores for Capacitive Energy Storage
AUTHORS:
Andrey Borzenko, Carine Edder, Lev Mourokh, Pavel Lazarev
KEYWORDS:
Dielectrophore, Polarization, Capacitor, Molecular Dielectrics, Molecular Design
JOURNAL NAME:
Materials Sciences and Applications,
Vol.9 No.6,
May
31,
2018
ABSTRACT: Main design principles of the potent rylene-based class of dielectrophores are established in the present article. The proposed class of dielectrophores comprises polarizable aromatic core, conjugated with aromatic subunits, and bears resistive groups on the periphery. The aromatic subunits might comprise donor and acceptor groups for the desired level of polarizability of the molecule. Appropriate positions for donor and acceptor groups are established by quantum chemistry modeling. The design principles are demonstrated on the molecular design of an efficient rylene-based dielectrophore.