1. Material Identification: This involves detailed information about the chemical composition and structure of the nanomaterial. It includes the source of the material, purity, and any modifications made to the material.
3. Surface Properties: Understanding the surface characteristics of nanomaterials is crucial as it affects their interaction with the environment and biological systems. This includes surface chemistry, functional groups, and surface energy.
4. Stability and Dispersibility: The stability of nanomaterials in different media and their ability to disperse uniformly are important for their practical applications. This information is critical for biomedical and environmental applications.
5. Biological Interactions: Information on how nanomaterials interact with biological systems, including their toxicity, cellular uptake, and biodistribution, is essential for assessing their safety and efficacy in biomedical applications.