2024 : 12 : 26
Vali Dalooji

Vali Dalooji

Academic rank: Associate Professor
ORCID:
Education: PhD.
ScopusId:
HIndex:
Faculty: science
Address:
Phone: 0813339841

Research

Title
MWCNT های سنتز شده بر روی نانوذرات نیکل مس @ aC: فیلم های H: مطالعه زمان آرامش دی الکتریک، غلظت حامل های آزاد و ضریب اتلاف با ضخامت لایه های مختلف نیکل
Type
JournalPaper
Keywords
The Ni layer thicknesses · The optical dissipation factor · The free carriers concentration · The free carriers energy loss
Year
2021
Journal OPTICAL AND QUANTUM ELECTRONICS
DOI
Researchers Vali Dalooji

Abstract

In this paper, we reported the optical constants and dissipation electrical energy of MWCNTs synthesized on Cu-Ni nanoparticles in hydrogenated amorphous carbon with diferent Ni layer thicknesses using capacitance coupled radio frequency plasma enhanced chemical vapor deposition (RF-PECVD) system. It can be seen that the Multi-Walled Carbon Nanotubes, MWCNTs, synthesized have maximum value of the average diameters in flms deposited with 15 nm Ni layer thickness. With increase of Ni layer thickness, the dielectric relaxation time peaks nearly obtain a blue shift. The RBS spectra results shown that Ni nanoparticles successfully was presented in thin flms. Due to the maximum value of the trapping incident photons on flms surface, flms deposited with 5 nm Ni layer thickness have maximum value of the absorption edge. The values of the free carriers electric susceptibility, χc, in thin flms with 15 nm Ni layers thickness, for all range wavelengths, have maximum values and they were increased with increasing wavelength. Films deposited with 10 nm Ni layer thickness have the maximum value of dissipation factor