Large-Area, Ensemble Molecular Electronics: Motivation and Challenges

Molecular Electronics: Challenges and Opportunities

Integrating individual molecules into electrical circuits, often termed as " Molecular Electronics " , is currently a focus research area because it can not only meet the increasing technical demands of the miniaturization of traditional Si-based electronic devices, but also provide an ideal window of exploring the intrinsic properties of materials at the molecular level. Indeed, over the past ...

molecular electronics

electron components have been steadily decreasing in size, while molecular materials have in recent years been found to exhibit many of the properties used in electronics. such developments are giving rise to a new field in which molecular materials are used for electronic applications. molecular electronics offers .

Mono - molecular electronics on a surface : challenges and opportunities

Large Interactive Displays in Hospitals – Motivation, Examples, and Challenges

In this paper we reflect on our research into the design and deployment of large interactive displays in hospitals. First, we introduce lessons from studies of the use of large displays to coordinate hospital work in a hectic and critical work environment. Then we present some of our current research, especially focusing on our current design of large displays at an operating ward in a large Da...

Reduced graphene oxide electrodes for large area organic electronics.

Devices based on solution processable organic materials are promising for inexpensive large area electronics on transparent fl exible plastic substrates. [ 1 ] In practice, however, electrodes in organic devices typically consist of vacuum deposited materials that are largely incompatible with this goal. The most widely used transparent electrode for plastic electronics to date is tin-doped ind...