Indian Journal of Science and Technology

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Preparation of Aluminium Alloy Metal Nanoparticles by Liquid Pulsed-Laser Ablation


Affiliations
1 Department of Chemical and Process Engineering, Faculty of Engineering and Built Environment, 43600 UKM Bangi, Malaysia
 

Background/Objectives: Nanotechnology has been stated in Malaysia New Economic Model and widely used in much application. The article focuses on nanoparticle formation using liquid pulsed-laser ablation technique. Methods: There are two methods have been used to produce the metal nanoparticles namely breakdown and build up method. In this article, the pulse laser ablation (build up method) has been used to generate the metal nanoparticles whereby the metal target is immersed in ultra-pure water. The Al alloy metal nanoparticles were studied using two laser parameters namely laser exposure time and laser power. Findings: The above mentioned method identified can generate the metal nanoparticles. The longer laser exposure time with higher power contribute higher weight loss of the Al metal. The new incoming black dots were detected on the surface of Al alloy metal samples that were shot by a laser beam. It was contributed to the formation of instabilities plasma on the metal surface towards Al nanostructures ejection. The average weight of a mass loss of Al alloy increases with the exposure time of laser shot was increases. It was shown that average of mass loss of Al metal alloy increased dramatically from the 30 second to 60 second at laser power of 1 watt. However, the higher ablation condition of 3 watt for 180s forms the bigger particle size of 900 nm and more. Conclusion/Application: At the condition of 3 watts for 30s, smaller particles size ranging of 76-1281 nm has been formed. The higher power and exposure time subsequently increase the size and homogeneity.

Keywords

Aluminium Alloy, Liquid Pulsed-Laser Ablation, Metal Nanoparticles, Particles Size, Surface Morphology.
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  • Preparation of Aluminium Alloy Metal Nanoparticles by Liquid Pulsed-Laser Ablation

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Authors

Ahmad Hafizuddin Mohammad Roston
Department of Chemical and Process Engineering, Faculty of Engineering and Built Environment, 43600 UKM Bangi, Malaysia
Wan Nor Roslam Wan Isahak
Department of Chemical and Process Engineering, Faculty of Engineering and Built Environment, 43600 UKM Bangi, Malaysia
Abu Bakar Mohamad
Department of Chemical and Process Engineering, Faculty of Engineering and Built Environment, 43600 UKM Bangi, Malaysia

Abstract


Background/Objectives: Nanotechnology has been stated in Malaysia New Economic Model and widely used in much application. The article focuses on nanoparticle formation using liquid pulsed-laser ablation technique. Methods: There are two methods have been used to produce the metal nanoparticles namely breakdown and build up method. In this article, the pulse laser ablation (build up method) has been used to generate the metal nanoparticles whereby the metal target is immersed in ultra-pure water. The Al alloy metal nanoparticles were studied using two laser parameters namely laser exposure time and laser power. Findings: The above mentioned method identified can generate the metal nanoparticles. The longer laser exposure time with higher power contribute higher weight loss of the Al metal. The new incoming black dots were detected on the surface of Al alloy metal samples that were shot by a laser beam. It was contributed to the formation of instabilities plasma on the metal surface towards Al nanostructures ejection. The average weight of a mass loss of Al alloy increases with the exposure time of laser shot was increases. It was shown that average of mass loss of Al metal alloy increased dramatically from the 30 second to 60 second at laser power of 1 watt. However, the higher ablation condition of 3 watt for 180s forms the bigger particle size of 900 nm and more. Conclusion/Application: At the condition of 3 watts for 30s, smaller particles size ranging of 76-1281 nm has been formed. The higher power and exposure time subsequently increase the size and homogeneity.

Keywords


Aluminium Alloy, Liquid Pulsed-Laser Ablation, Metal Nanoparticles, Particles Size, Surface Morphology.



DOI: https://doi.org/10.17485/ijst%2F2016%2Fv9i21%2F133979