Since its discovery in 1931 the research on the spin crossover (SCO) effect was influenced by the long-term objective of its technological application. Due to the changes in the magnetic moment, dielectric constant, color, bond-length, etc. accompanying the SCO, utilization of SCO devices in data storage or sensors was postulated.
Such a technological adoption is still confronted with multiple challenges as non-destructive read-out of the spin state, suitable host-guest materials for multifunctionality or sensor devices, as well as the preparation of SCO compounds in a suitable, technologically addressable form.
The contribution will focus on challenges and progress made in Fe(II) tetrazole systems, advancing from fundamentals to applicability.
Danny Müller (Vienna): Spin-Crossover in Fe(II) tetrazole systems: From fundamentals to applicability
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