University of Maryland researchers have discovered a way to
control magnetic properties of graphene that could lead to powerful new applications in magnetic storage and magnetic random access memory.
Not exact matches
This new method for fine tuning conductivity could lead to
control over optical and
magnetic properties of components, with far - reaching applications.
This new technique enables tight
control over diameter, length and surface
properties of the nanorods, whose optical, electrical,
magnetic and catalytic
properties depend on the precursor materials used and the dimensions of the nanorods.
«This provides another handle on how material
properties can be tuned or
controlled for practical applications in devices based on electrical and
magnetic properties.»
The technique could facilitate the use of nanoparticles for optical, electrical, optoelectronic,
magnetic, catalysis and other applications in which tight
control over size and structure is essential to obtaining desirable
properties.
Unlike nucleation -
controlled Nd - Fe - B - based permanent magnets, the Sm2Co17 - type maintains its excellent
magnetic properties at elevated temperatures.
The Munich physicists will observe whether a neutron's
magnetic properties behave evenly in the presence of high electric fields and precisely
controlled magnetic fields.
«If we can
control the process so that we can deliberately pattern the formation of these little metal slabs, perhaps we can harness and
control their
magnetic and electronic
properties.»