High mobility n-type semiconducting polymer.
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.
ProDOT-4gDPP, PECD, OECT, OTE, BioEL
New ion-electron conducting polymers for ECD, OECT, OTE and BioEL applications.
PBTTT-C10, PBTTT-10, OTFT, liquid crystal polymer, donor, PBTTT-n, PBTTT-Cn
For more information, please check out the link below:
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.
P(gNDI-gT2), OS0400-g, OS0400-GG, ion-electron bioEL, 2186673-54-9
1M Material: P(gNDI-gT2)
1M Codes: OS0400-g, OS0400-GG
Feature: Ion-electron conducting N-type polymer
Application: Laboratory research use ONLY
CAS No: 2186673-54-9
PECD EC polymer electrochromic ECGR01, EC Green-1, 1150123-98-0
For technical information, please review the typical COA linked below:
Classic Pi-Materials MEH-PPV MDMO-PPV PFO PFB F8BT KP115 donor OPV, OLED OPD intermediates
From light emitters, transistors and solar cells to printed electronics in general, classic Pi-materials are still the basics for better understanding of relationship between structures and properties; 1-Material is the reliable source for classic Pi-materials. Some examples are listed in the attached, please contact us if you can find what you need.