Sentence examples for materials for spintronics from inspiring English sources
There are some reports that some large bulk band gap TI systems are stable under strain and can be candidate materials for spintronics device [1, 3, 8].
The magnetic structures similar to BLs and BPs are also present in nanostripes and cylindrical nanowires [3 6], which are perspective materials for spintronics.
The V, Mn, and Fe lattices are ferromagnetic half metals with a large band gap of more than 1.5 eV in the insulating spin channel, making them potential 2D materials for spintronics application.
A simple adaptation of wet methods to the fabrication conditions makes them promising for a wide range of materials for spintronics, fuel cells, solar cells, implants, medical equipment, catalysts, and fine grain ceramics.
Si, Ge as well as SiGe structures are the promising materials for spintronics and quantum computation due to the fact that in both crystals only one isotope (29Si and 73Ge) has nuclear spin.
Ferromagnet/semiconductor hybrid structures attract great attention as artificial materials for semiconductor spintronics since they have magnetic and spin-related functions and excellent compatibility with semiconductor device structures [1].
Since the highTcis crucial to the spintronic devices, our calculated results could be useful in nano-materials design for spintronics.
These materials are promising candidates for spintronics, energy storage devices, electrocatalysts for hydrogen evolution, and as high-performance materials for optoelectronics.
This aspect is especially important for spintronics materials such as cylindrical nanowires and nanostripes in which is the presence of structures similar to BLs and BPs [10-13] [10-13]
Carbon-based nanomaterials, such as graphene, are expected to be promising materials for the realization of spintronics due to the weak spin-orbit coupling and long spin scattering length [6].
Other kind of interesting applications for the nanoporous titania templates are based on doping semiconductor titanium oxide with magnetic materials for diluted magnetic semiconductors and/or spintronics [13, 34].
