Selective Actuation of Arrays of Carbon Nanotubes Using Magnetic Resonance

Abstract: We introduce the use of ferromagnetic resonance (FMR) to actuate mechanical resonances in as grown arrays of carbon nanotubes (CNTs) loaded with Ni particles (Ni-CNTs). This contactless method is closely related to the magnetic resonance force microscopy technique and provides spatial selectivity of actuation along the array. The Ni-CNT arrays are grown by chemical vapor deposition and are composed of homogeneous CNTs with uniform length (~600 nm) and almost equal diameter (~20 nm), which are loaded with Ni ca… Show more

“…The emergence of these changes is due to the resonance of the electric dipole moment of Ni with the applied electromagnet field at this frequency. 44 With the introduction of PPy, there is a certain increase in e 0 and e 00 of NiP. The reason is that the conductive state PPy enhances dielectric loss capability.…”

Construction of Ni@polypyrrole nanochains/Ti₃C₂T_xternary composites with excellent microwave absorption properties

“…The emergence of these changes is due to the resonance of the electric dipole moment of Ni with the applied electromagnet field at this frequency. 44 With the introduction of PPy, there is a certain increase in e 0 and e 00 of NiP. The reason is that the conductive state PPy enhances dielectric loss capability.…”

Construction of Ni@polypyrrole nanochains/Ti₃C₂T_xternary composites with excellent microwave absorption properties

Carbon nanotubes: An effective platform for biomedical electronics

Fabrication of one-dimensional M (Co, Ni)@polyaniline nanochains with adjustable thickness for excellent microwave absorption properties