Multicomponent Assembly Strategies for Supramolecular Systems
Low-Dimensional Supramolecular Assemblies on Surfaces
Self-Assembled Mono- and Multilayers for Functional Opto-Electronic Devices
Amphiphilic Design for Supramolecular Materials with Opto-Electronic Functions
Chiral Supramolecular Structures as Spin Filters
Solution Processed Multilayer Organic Light Emitting Diodes
Concepts and Modeling for Charge Transport in Organic Electronic Materials
Simulations of Morphology and Charge Transport in Supramolecular Organic Materials
Subject Index
Publication details
https://doi.org/10.1039/9781782626947About this book
For years, concepts and models relevant to the fields of molecular electronics and organic electronics have been invented in parallel, slowing down progress in the field. This book illustrates how synthetic chemists, materials scientists, physicists, and device engineers can work together to reach their desired, shared goals, and provides the knowledge and intellectual basis for this venture.
Supramolecular Materials for Opto-Electronics covers the basic principles of building supramolecular organic systems that fulfil the requirements of the targeted opto-electronic function; specific material properties based on the fundamental synthesis and assembly processes; and provides an overview of the current uses of supramolecular materials in opto-electronic devices. To conclude, a “what’s next” section provides an outlook on the future of the field, outlining the ways overarching work between research disciplines can be utilised.
Postgraduate researchers and academics will appreciate the fundamental insight into concepts and practices of supramolecular systems for opto-electronic device integration.