I. S. Zlobin scite author profile

Spintronics, a flourishing new field of microelectronics, uses the electron spin for reading and writing information in modern computers and other spintronic devices with a low power consumption and high reliability. In a quest to increase the productivity of such devices, the use of molecular materials as a spacer layer allowed them to perform equally well or even better than conventional all-inorganic heterostructures from metals, alloys, or inorganic semiconductors. In this review, we survey various classes of chemical compounds that have already been tested for this purpose�from organic compounds and coordination complexes to organic−inorganic hybrid materials�since the creation of the first moleculebased spintronic device in 2002. Although each class has its advantages, drawbacks, and applications in molecular spintronics, together they allowed nonchemists to gain insights into spin-related effects and to propose new concepts in the design and fabrication of highly efficient spintronic devices. Other molecular compounds that chemistry could offer in great numbers may soon emerge as suitable spacers or even electrodes in flexible magnetic field sensors, nonvolatile memories, and multifunctional spintronic devices.

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Hybrid Plasma – Prospects for Application in Medicine and Biology

Vasilieva

Vasiliev

Garaeva

et al. 2020

Russ Phys J

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I. S. Zlobin

Molecular Compounds in Spintronic Devices: An Intricate Marriage of Chemistry and Physics

Hybrid Plasma – Prospects for Application in Medicine and Biology

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