Synthesis and investigation of the photophysical, electrochemical and theoretical properties of phenazine–amine based cyan blue-red fluorescent materials for organic electronics

We report a study of the effect of modulating the donor system fused with a central phenazine core to understand the tuning of the optoelectrochemical properties in the designed phenazine–amine derivatives.

The design and synthesis of 2,3-diphenylquinoxaline amine derivatives as yellow-blue emissive materials for optoelectrochemical study

Yellow-blue emitting, donor–acceptor–donor (D–A–D) based bipolar quinoxaline–amine derivatives were designed and synthesized for their optoelectronic applications.

Impact of the donor substituent on the optoelectrochemical properties of 6H-indolo[2,3-b]quinoxaline amine derivatives

An opto-electrochemical study of D–A based indolo-quinoxaline amine derivatives was performed by varying the strength of the amine substituent.

Synthesis and opto-electrochemical properties of tribenzo[a,c,i]phenazine derivatives for hole transport materials

In this work, five novel 3,6-disubstituted-tribenzo[a,c,i]phenazine (2–6) derivatives were synthesized in good yield by employing a palladium catalyzed C–N bond forming amination reaction and fully characterized.

An efficient water-soluble surfactant-type palladium catalyst for Suzuki cross-coupling reactions in pure water at room temperature

An in situ-generated Pd catalyst with a bidentate phosphine-type zwitterionic surfactant as a ligand showed high catalytic activity in the Suzuki reactions.

Design and synthesis of hyperbranched polyimide containing multi-triphenylamine moieties for memory devices

A hyperbranched polyimide (HBPI) was synthesized from a designed triamine monomer and the HBPI based memory device presented SRAM (static random access memory) behavior with a low switch voltage and high ON/OFF current ratio.

The effect of meta coupling on colour purity, quantum yield, and exciton utilizing efficiency in deep-blue emitters from phenanthroimidazole isomers

Three isomers were employed to investigate the essential reason for the meta-tuning effect on their PL and EL properties.

Construction of high efficiency non-doped deep blue emitters based on phenanthroimidazole: remarkable substitution effects on the excited state properties and device performance

Remarkable substitution effects on the excited state properties and device performance are observed by tuning the coupling position.

Dimeric phenanthroimidazole for blue electroluminescent materials: the effect of substituted position attached to biphenyl center

A more valuable deep emission is realized by tuning the substituted position of biphenyl from para- to meta-coupling.