Capturing waste heat energy with charge-transfer organic thermoelectrics

Capturing waste heat energy with charge-transfer organic thermoelectrics

Electrically conducting organic salts, known for over 60 years, have recently demonstrated new abilities to convert waste heat directly into electrical power via the thermoelectric effect. Multiple opportunities are emerging for new structure-property relationships and new materials to be attained t...

Full description

Bibliographic Details
Main Authors: Dimitrov, Vladimir, Woodward, Simon
Format: Article
Published: Thieme 2018
Subjects:
organic materials
synthesis
synthetic metals
organic thermoelectrics
acenes
Online Access:https://eprints.nottingham.ac.uk/52940/
Description
Summary:Electrically conducting organic salts, known for over 60 years, have recently demonstrated new abilities to convert waste heat directly into electrical power via the thermoelectric effect. Multiple opportunities are emerging for new structure-property relationships and new materials to be attained through synthetic organic chemistry. This review highlights key aspects of this field, which is complimentary to current efforts based on polymeric, nanostructured or inorganic thermoelectric materials and indicates opportunities whereby main stream organic chemists can contribute.

Similar Items