Title |
Nanokompozitinių deimanto tipo anglies plonų dangų su metalo nanodalelėmis lazerinis struktūrizavimas ir jų optinių bei struktūrinių savybių tyrimas / |
Translation of Title |
Laser patterning of nanocomposite diamond-like carbon thin films with metal nanoparticles and investigation of their optical and structural properties. |
Authors |
Jurkevičiūtė, Aušrinė |
Full Text |
|
Pages |
42 |
Keywords [eng] |
diamond-like carbon ; metal nanoparticles ; optical properties ; laser patterning ; patterning threshold |
Abstract [eng] |
Metallic nanoparticles exhibiting plasmonic properties are attractive for applications in optical sensors. The optical response of nanoparticles depends on their shapes and sizes as well as on surrounding medium. In order to prevent unwanted environmental effects for nanoparticles and to maintain the desired properties of plasmonic metals, nanoparticles can be embedded in a matrix of another material. Additionally, optical properties can be altered by imposing periodic lines in the material. In this dissertation, a systematic study of copper (Cu) and silver (Ag) nanoparticles in diamond-like carbon (DLC) matrix is provided. Nanocomposites with varying metal concentration were deposited by reactive unbalanced magnetron sputtering technique. DLC:Cu and DLC:Ag dispersion curves, obtained from spectroscopic ellipsometry, have features associated with plasmonic properties. Two-photon luminescence images show that these properties are maintained for a long period of time, thus, DLC has effectively protected metal from the environmental effects. One-dimensional periodic structures in DLC:Ag were imposed by direct laser interference patterning method. Initial bimodal distribution of nanoparticle diameters was successfully changed into unimodal distribution. Patterning of nanocomposites is possible when laser fluence is at or above patterning threshold. In order to pattern DLC:Ag nanocomposite, the needed energy density is 4-24 times smaller compared to DLC and Ag patterning thresholds. |
Dissertation Institution |
Kauno technologijos universitetas. |
Type |
Summaries of doctoral thesis |
Language |
Lithuanian |
Publication date |
2020 |