Síntesis y caracterización de nanopartículas multimetálicas
- MANZANEDA GONZALEZ, VANESA
- Elena Junquera González Zuzendaria
- Andrés Guerrero Martínez Zuzendaria
Defentsa unibertsitatea: Universidad Complutense de Madrid
Fecha de defensa: 2023(e)ko urria-(a)k 20
- Valentín García Baonza Presidentea
- Eduardo Guzman Solis Idazkaria
- Silvia Barbosa Fernández Kidea
- Ana Espinosa de los Monteros Royo Kidea
- Jorge Pérez Juste Kidea
Mota: Tesia
Laburpena
Nanotechnology and nanoscience are interconnected scientific fields that are constantly expanding and of great relevance in contemporary research. They focus on the study, manipulation, and understanding of matter at the nanoscale. Nanoscience essentially aims to provide in-depth knowledge of properties inherent at the nanoscale, while nanotechnology capitalizes on this knowledge to develop cutting-edge applications and technologies. Together, nanoscience and nanotechnology have captured the attention of the scientific community, offering a promising future and a potential impact in multiple areas of current socio-economic relevance, such as energy or sustainability. As detailed in Chapter 1, their continuous advance has led to the development of new types of metal nanoparticles (NPs), consisting of one or more metals, with well-defined morphologies and sizes, which have attracted great interest due to their unique optical properties that give them great potential in various technological applications such as sensors, catalysis, biomedicine, drug delivery and optoelectronics. These metallic structures exhibit distinct plasmonic properties because of their interaction with light, which depend primarily on their composition, size, and shape...