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.

OMIEC, organic mixed ionic-electronic conductors for energy storage, electrochromic displays, bioelectronics, sensors, electrocatalysis, neuromorphic devices, thermoelectrics, and actuators

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Mixed ionic-electronic conductors, also known as mixed conductors, are an increasingly important category of materials with applications in energy storage, electrochromic displays, bioelectronics, sensors, electrocatalysis, neuromorphic devices, thermoelectrics, and actuators.

Mixed conductors exhibit both ion and electron/hole conductivity, and ionic-electronic coupling (i.e., capacitance), allowing them to effectively transduce ionic signals to electronic ones, and vice versa.

In recent years, new mixed conductors have been developed beyond the traditional metals oxides and phosphates to include (semi)conducting polymers, radical polymers, perovskites, and hybrid organic-inorganic materials, enabling improved performance and new functionalities.

Structured below are examples of polymeric mixed conductors from 1-Material Inc.

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n-PBFDO, PBFDO, n-PBDF, n-type polymer, counter partner PEDOT, for OECT, capacitors, transparent electrode

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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.

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