1-Material is proud of supporting AUCAOS: The Australasian Community for Advanced Organic Semiconductors.
OTE
From waste heat to power source, thermoelectric materials can turn a temperature difference into electricity by exploiting the flow of electrons from a warmer area to a cooler one. Organic thermoelectric (OTE) materials are of flexibility, cost effectiveness, and low thermal conductivity. 1-Material Inc is looking for your suggestions to further tune these OTE materials exampled below confidentially and reliably.
n-PBFDO, PBFDO, n-PBDF, n-type polymer, counter partner PEDOT, for OECT, capacitors, transparent electrode
Would the emerging poly(benzodifurandione)[PBDF, PBFDO] reported having an unprecedented high electrical conductivity upon reduction (“n-doping”) with protons, high optical transparency and low work-function, be outmatching the predominant counter-partner PEDOT:PSS? Please check links below to find more.
2TDPP-OD-TEG
2TDPP-OD-TEG is available for your research needs. For more information, please review the typical COA as exampled below:
Organic mixed ion-electron conductor OMIEC extended DPP-g DPP-TEG, 2TDPP-OD-TEG, 2TDPP-OMe, PNDI-OD-5G, OMIEC
New organic mixed ion-electron conductors OMIEC polymers, basing on DPP-TEG are available for you:
ProDOT-4gDPP, PECD, OECT, OTE, BioEL
New ion-electron conducting polymers for ECD, OECT, OTE and BioEL applications.
Aqueous soluble fullerene acceptor for OPV, PCBO, PCBO12, PCBO12
Aqueous soluble fullerene acceptors for efficient eco-friendly polymer solar cells processed from benign ethanol/water mixtures with self-healing function.