Block cooligomers for spin filtering and transport across all-organic interfaces ((2) B05)

Subject Area Polymer Materials
Experimental Condensed Matter Physics
Theoretical Condensed Matter Physics

Term since 2023

Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 514664767

Project Description

This project aims at (i) correlating n-type semiconductor length and order with spin transport characteristics and (ii) the design, self-assembly and use of helical peptide-semiconductor block co-oligomers for next-generation spin valve architectures. The combination of spin polarization, spin injection across an all-organic interface, spin transport in ordered layers and spin transfer into electrodes reduces the impedance mismatch problem for spin injection and furthermore eliminates the need for magnetic electrodes. The presented concept greatly facilitates processing and has the potential to revolutionize the field of organic spintronics.

DFG Programme CRC/Transregios

Subproject of TRR 386: HYP*MOL – Hyperpolarization in molecular systems

Applicant Institution Universität Leipzig

Project Heads Professor Dr. Frank Ortmann; Professorin Dr. Georgeta Salvan; Professor Dr. Michael Sommer

Servicenavigation

Hauptnavigation

Block cooligomers for spin filtering and transport across all-organic interfaces ((2) B05)

Additional Information

Servicenavigation

Hauptnavigation

Block cooligomers for spin filtering and transport across all-organic interfaces ((2) B05)

Additional Information

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