The giant magnetoresistance (GMR) effect was discovered in 1988 in nanoscale metallic
ferromagnetic/non-magnetic (FM/NM) multilayers. By now, devices based on this …

Magnetic nanorods or nanowires exhibit degrees of freedom associated with their inherent
shape anisotropy and the ability to incorporate different components along their length. The …

Electrodeposition is one of the simpler and cheaper processes available for the fabrication
of thin metal films. Recent developments have made it possible to electrodeposit a wide …

Publisher Summary This chapter discusses the giant magnetoresistance (GMR) in magnetic
multilayers. Magnetoresistance (MR) is the change in electric resistance of a conductor by a …

An analysis of both magnetic and magnetotransport properties is presented for
electrodeposited multilayers prepared intentionally under conditions to make the …

Giant magnetoresistance (GMR) behavior in electrodeposited NiFe/Cu multilayers was
investigated as a function of non-magnetic (Cu) and ferromagnetic (NiFe) layer thicknesses …

Co–Ni–Cu/Cu multilayers have been deposited from a sulfate/sulfamate bath by controlling
the current and the potential for the deposition of the magnetic and the copper layer …

Directed manipulation of nanomaterials has significant implications in the field of
nanorobotics, nanobiotechnology, microfluidics and directed assembly. With the goal of …

Arrays of electrodeposited Co Cu∕ Cu multilayered nanowires have been characterized by
ferromagnetic resonance and magnetometry measurements in order to study the effect of the …

The room-temperature magnetoresistance (MR) characteristics were investigated for
electrodeposited multilayers as a function of the constituent magnetic and nonmagnetic …