U9-S01. Synthesis of nanoparticles by laser induced-pyrolysis

Synthesis of nanoparticles by laser induced-pyrolysis

The unit provides an automated system for the synthesis of nanoparticles using laser-induced pyrolysis of chemical precursors in gas and/or aerosol phase, which enables the generation of different type of nanoparticles. This service includes the possibility of selecting different feeding precursors either in gas, liquid or resuspended solids. The unit can also explore solid or liquid recollection of nanoparticles.

Customer benefits

This service can be quite convenient for generation of large quantities of magnetic or carbonaceous materials. It can be also ideal for custom-designed configurations of hybrid composites containing first and second transition metal oxides.

Target customer

This service is designed to supply nanoparticles for biomedical applications, including diagnosis and sensing. Research groups interested in generating large quantities for in vivo experiments, nanotoxicology or energy related applications are ideal customers.

Additional information

Selected References:

1. A. Madrid, G. Martinez, F. Hornos, J. Bonet-Aleta, E. Calvo, A. Lozano, J.L. Hueso, Laser-induced tuning of carbon nanosensitizers to maximize nitrogen doping and reactive oxygen species production in the visible range, Catalysis Today, 422 (2023).
2. G. Martinez, A. Malumbres, A. Lopez, R. Mallada, J.L. Hueso, J. Santamaria, Laser-Assisted Production of Carbon-Encapsulated Pt-Co Alloy Nanoparticles for Preferential Oxidation of Carbon Monoxide, Frontiers in Chemistry, 6 (2018).
3. G. Martinez, A. Malumbres, R. Mallada, J.L. Hueso, S. Irusta, O. Bomati-Miguel, J. Santamaria, Use of a polyol liquid collection medium to obtain ultrasmall magnetic nanoparticles by laser pyrolysis, Nanotechnology, 23 (2012).

Selected Research Projects:

1. Laser Pyrolysis For The Development Of Inorganic Nanoparticles –10/2017 – 09/2018. Funding Entity: TEIJIN LIMITED. PI: Jesús Santamaría
2. PID2020-114926RB-I00: Generación asistida por láser de catalizadores de átomos aislados. Aplicaciones en energía, medio ambiente y salud. 09/2021 – 08/2024. Funding Entity: AGENCIA ESTATAL DE INVESTIGACIÓN PI: Jesús Santamaría