Experimental Setup for Laser Ablation Synthesis of Nanoparticles
KREMPL, Ivo, Karel NOVOTNÝ, Lukáš PEČINKA, Petr VAŇHARA a Josef HAVEL. Experimental Setup for Laser Ablation Synthesis of Nanoparticles. In Nanocon 2023. 2023. |
Další formáty:
BibTeX
LaTeX
RIS
|
Základní údaje | |
---|---|
Originální název | Experimental Setup for Laser Ablation Synthesis of Nanoparticles |
Název česky | Experimentální sestava pro laserovou ablační syntézu nanočástic |
Název anglicky | Experimental Setup for Laser Ablation Synthesis of Nanoparticles |
Autoři | KREMPL, Ivo, Karel NOVOTNÝ, Lukáš PEČINKA, Petr VAŇHARA a Josef HAVEL. |
Vydání | Nanocon 2023, 2023. |
Další údaje | |
---|---|
Typ výsledku | Konferenční abstrakt |
Utajení | není předmětem státního či obchodního tajemství |
Klíčová slova česky | Laserová ablace; tellur; laserová ablační syntéza |
Klíčová slova anglicky | Laser ablation; tellurium; laser ablation synthesis |
Změnil | Změnil: Mgr. Ivo Krempl, učo 474035. Změněno: 3. 6. 2024 09:54. |
Anotace |
---|
The increasing use of nanoparticles (NPs) requires the development of a new method for their preparation. One of these options is to prepare NPs by laser ablation synthesis (LAS). LAS is based on the ablation of the target, which is placed in different environments, either in liquid or ambient gas. The most common laser for these syntheses is neodymium-doped yttrium aluminum garnet (Nd:YAG). LAS synthesis in a liquid environment is usually performed in organic solvents (e.g. ethanol or acetone). The setup was constructed to respect the maximum use of commercially available components and flexibility. The main issue was developing a setup enabling synthesis in gas or liquid environments with lasers operating at different wavelengths. In the case of LAS in liquid, a preparation is provided at 1064 nm, 10 Hz. On the other hand, the synthesis in an ambient gas environment (helium or argon) can be provided at 266 nm, 10 Hz. This wavelength cannot be used for LAS in liquid due to the absorption by liquid. This preparation is placed in the ablation chamber and then trapped in an organic solvent (e.g. acetone). The reason for this trapping is for easier manipulation and to prevent the release of toxic NPs into the atmosphere. The main issue for developing a preparation method is the preparation of fresh NPs due to their rapid aggregation. |
Anotace anglicky |
---|
The increasing use of nanoparticles (NPs) requires the development of a new method for their preparation. One of these options is to prepare NPs by laser ablation synthesis (LAS). LAS is based on the ablation of the target, which is placed in different environments, either in liquid or ambient gas. The most common laser for these syntheses is neodymium-doped yttrium aluminum garnet (Nd:YAG). LAS synthesis in a liquid environment is usually performed in organic solvents (e.g. ethanol or acetone). The setup was constructed to respect the maximum use of commercially available components and flexibility. The main issue was developing a setup enabling synthesis in gas or liquid environments with lasers operating at different wavelengths. In the case of LAS in liquid, a preparation is provided at 1064 nm, 10 Hz. On the other hand, the synthesis in an ambient gas environment (helium or argon) can be provided at 266 nm, 10 Hz. This wavelength cannot be used for LAS in liquid due to the absorption by liquid. This preparation is placed in the ablation chamber and then trapped in an organic solvent (e.g. acetone). The reason for this trapping is for easier manipulation and to prevent the release of toxic NPs into the atmosphere. The main issue for developing a preparation method is the preparation of fresh NPs due to their rapid aggregation. |
Návaznosti | |
---|---|
GA22-07635S, projekt VaV | Název: Pokročilé metody přípravy telluridů polokovů a nepřechodných kovů |
Investor: Grantová agentura ČR, Pokročilé metody přípravy telluridů polokovů a nepřechodných kovů | |
MUNI/A/1298/2022, interní kód MU | Název: Základní a aplikovaný výzkum a vývoj metod chemické a fyzikálně chemické analýzy pro studium přírody a pokročilé technologie |
Investor: Masarykova univerzita, Základní a aplikovaný výzkum a vývoj metod chemické a fyzikálně chemické analýzy pro studium přírody a pokročilé technologie | |
MUNI/A/1301/2022, interní kód MU | Název: Zdroje pro tkáňové inženýrství 13 |
Investor: Masarykova univerzita, Zdroje pro tkáňové inženýrství 13 |
VytisknoutZobrazeno: 7. 10. 2024 04:21