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The project AnisoTEP aims to enhance the performance of conducting polymer thermoelectric materials for wearable devices by developing highly conducting and crystalline polymer thin films. It explores innovative doping methods to improve electrical conductivity and charge transport properties, addressing limitations in…
Conducting polymer (CP) based thermoelectric materials (TE) gained significant interest from the scientific community due to their natural advantages such as low cost, high flexibility, lightweight and low toxicity over inorganic materials, which is beneficial for wearable or portable devices.
Despite the benefits of organic TE materials, their low electrical conductivity reduces the TE performance and hinders commercialization.
Chemical doping can be used to improve the electrical conductivity…
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
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University of California, Los Angeles, Department of Chemistry & Biochemistry
United States, Los Angeles
Type: Company (for-profit)
Activity type: Private for-profit entities (excluding Higher or Secondary Education Establishments)
SME: No
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