Description: A hybrid material that operates at the nanoscale refers to the combination of different materials, such as organic and inorganic, integrated at extremely small scales, typically in the range of 1 to 100 nanometers. These hybrid materials exhibit unique properties not found in their individual components, granting them enhanced characteristics such as increased strength, electrical conductivity, or optical properties. Nanoscale manipulation allows for precise control over the structure and composition of materials, resulting in unprecedented control over their physical and chemical properties. This design capability at the nanoscale has opened new possibilities in various fields, including medicine, electronics, and energy. Nanoscale hybrid materials are fundamental in the development of advanced technologies, such as nanocomposites, nanocapsules for controlled drug delivery, and more efficient electronic devices. Their relevance lies in the ability to improve the performance and functionality of products and applications, making them an active and promising area of research in materials science and nanotechnology.
