Electronic devices known as spintronics employ an electron’s spin rather than its charge to produce an energy-efficient current that is used for computing, data storage, and communication.
Researchers have successfully measured the amount of charge generated in spin-to-charge conversion within a spintronic material at ambient temperature, thanks to a printable organic polymer that prints into chiral configurations. The polymer’s adjustable properties and adaptability make it appealing for use in understanding chirality and spin interactions more broadly, as well as for less costly, environmentally friendly, printed electronic applications.
The study can be found in Nature Materials. Co-first authors are Kyung Sun Park of Urbana-Champaign and Rui Sun of ORaCEL with the support of eight co-authors, including Zhi-Gang Yu of Washington State University.
Read the full story:
AZO Materials
MSN.com