The development of next-generation batteries and smart electronic devices relies on the
design of new organic redox-active materials. However, the performance of electronic …

Intermolecular interactions play a key role in the charge transport properties of molecular
electronic devices. In this work, we characterize charge transport in redox-active pyridinium …

Ladder-type molecular structures greatly enhance the chemical stability of oligoaniline
derivatives and impart well-defined physical properties to multiple molecular charge states …

Charge transport in electrochemical energy-storage systems critically relies on supporting
electrolytes to maintain ionic strength and solution conductivity. Despite recent progress, it is …

Charge transport through π-conjugated molecules plays an essential role in biochemical
redox processes and energy storage applications. In this work, we show that molecular …

A series of redox-active perylene tetracarboxylic diimide (PTCDI) derivatives have been
synthesized and studied by electrochemical cyclic voltammetry and electrochemical …

Redox‐active molecular junctions have attracted considerable attention because redox‐
active molecules provide accessible energy levels enabling electronic function at the …

In this work the charge transport and energetics of a photochemically addressable single
molecule switch based on the expanded bipyridinium core linked to an anchoring group with …

Abstract Development of stimuli-responsive materials is critical for new advances in
molecular electronics. Our work focuses on the ability to precisely control the switching of …

We studied charge transport phenomena through a core substituted naphthalenediimide
(NDI) single-molecule junctions using the electrochemical STM-based break junction …