New Functional Organic Materials and Their Photoelectric Applications is a new open Special Issue of Materials, which focuses on designing and fabricating advanced functional organic optoelectronic materials and makes great contributions to investigating their properties, related applications, and underlying mechanisms [...
Photoactivity represents the ability of a material, generally speaking a semiconductor, to become ac...
Organic semiconductor materials have vast commercial potential for a wide range of applications, fro...
Over the last few years Organic Semiconducting industry showed significant growth in many areas domi...
Guest Editors Graeme Cooke, Ivana Evans and Peter Skabara introduce this themed collection on functi...
Photoactivity represents the ability of a material to activate when interacting with light. It can b...
This novel joint feature issue on “Hybrid organic–inorganic materials for photonic applications” in ...
The goal of this special issue is to obtain new insights into the roles of crystallography in functi...
Materials science is an interdisciplinary field where physicists, chemists and engineers work togeth...
Research in organic solid and polymer-based optoelectronic devices is driven by the physical flexibi...
Organic optoelectronic materials are rapidly being commercialized at present [...
Future electronics will need to be mechanically flexible and stretchable in order to enable the deve...
A comprehensive overview of functional nanosystems based on organic and polymeric materials and thei...
Functional molecular materials exhibiting, in particular, electrical, magnetic or optical properties...
Nanoparticles and nanostructured materials represent an active area of research and impact in many a...
https://kent-islandora.s3.us-east-2.amazonaws.com/facultybooks/120/thumbnail.jpgThe first book to ex...
Photoactivity represents the ability of a material, generally speaking a semiconductor, to become ac...
Organic semiconductor materials have vast commercial potential for a wide range of applications, fro...
Over the last few years Organic Semiconducting industry showed significant growth in many areas domi...
Guest Editors Graeme Cooke, Ivana Evans and Peter Skabara introduce this themed collection on functi...
Photoactivity represents the ability of a material to activate when interacting with light. It can b...
This novel joint feature issue on “Hybrid organic–inorganic materials for photonic applications” in ...
The goal of this special issue is to obtain new insights into the roles of crystallography in functi...
Materials science is an interdisciplinary field where physicists, chemists and engineers work togeth...
Research in organic solid and polymer-based optoelectronic devices is driven by the physical flexibi...
Organic optoelectronic materials are rapidly being commercialized at present [...
Future electronics will need to be mechanically flexible and stretchable in order to enable the deve...
A comprehensive overview of functional nanosystems based on organic and polymeric materials and thei...
Functional molecular materials exhibiting, in particular, electrical, magnetic or optical properties...
Nanoparticles and nanostructured materials represent an active area of research and impact in many a...
https://kent-islandora.s3.us-east-2.amazonaws.com/facultybooks/120/thumbnail.jpgThe first book to ex...
Photoactivity represents the ability of a material, generally speaking a semiconductor, to become ac...
Organic semiconductor materials have vast commercial potential for a wide range of applications, fro...
Over the last few years Organic Semiconducting industry showed significant growth in many areas domi...
DOI
Add to ORKG