Multi-functional flexible 2D carbon nanostructured networks

Design of multi-functional 2D open-shell organic networks with mechanically controllable properties.

Triarylmethyls (TAMs) are prominent highly attractive open shell organic molecular building blocks for materials science, having been used in breakthrough syntheses of organic magnetic polymers and metal organic frameworks. With their radical π-conjugated nature and a proven capacity to possess high stability via suitable chemical design, TAMs display a variety of desirable characteristics whic...

A Nanostructured Honeycomb Carbon Anode

We have for preparin method yiel nanotubes of surface like structured el film-control cally, the na maximum c trodes. For e anodes deliv gous thin-fil because the transport in t decrease the Other labora electrodes p area Li-ins Carbonac mercial Li-io et al. and smaller-sized indicate that bon might y suda and co structured ho used this m supercapacit diamond-like monodispers the film. It honey...

Functional Nanostructured Molecular Materials

The Electrochemical Society Interface • Fall 2001 here has been tremendous recent interest in the design and assembly of porous nanostructured materials.1 Synthetic approaches range from coordination-polymer formation to surfactant-templated alumino-silicate growth to semiconductor nanoparticle aggregation, while functions include chemical catalysis, chemical sensing, energy storage, and energy...

Flexible, transparent dielectric capacitors with nanostructured electrodes

Single-walled carbon nanotube networks for flexible and printed electronics

Networks of single-walled carbon nanotubes (SWNTs) can be processed from solution and have excellent mechanical properties. They are highly flexible and stretchable. Depending on the type of nanotubes (semiconducting or metallic) they can be used as replacements for metal or transparent conductive oxide electrodes or as semiconducting layers for field-effect transistors (FETs) with high carrier...