Nanoparticle research

Nanoparticle research is a very interesting field of science. The relationship between  structure and properties of materials is really fascinating, which has attracted much attention froom scientist from different discipline (material science, physics and chemistry). The magic things of nanoparticles is that its properties at nanoscale size is significantly different from its bulky counterparts. For example, titania (TiO2), at nanoscale (<30 nm), it is transparent and scatter UV light resulting in its popularity in cosmetic application. Research also found that CdS crystallites in the size range of a few nanometers does not exhibit the optical spectra of its bulk counterparts. Nowadays, the application of nanoparticles in society is so diverse, such as carbon black (20-50 nm) has been used mainly to reinforce rubber (for car tires), amorphous silica as a food additive E551, ZnO and TiO2 in cosmetic, nanoparticles in paint for car … Interestingly, the application of nanoparticles were started dated back to ancien time, for instant metal nanoparticles were used as color pigments in luster and glass technology, the usage of silver or copper nanoparticles in the outermost layer of the glaze, gold nanoparticles were used to introduce the red color to glass, in ruby glass (Lycurgus Cup in the British Museum). Excitingly, this cup appears with green color in daylight and change to red color when it was illuminated from insight the cup.

The systematic study of nanoparticles started by research of Michael Faraday (approximately 150 years ago) on the interaction of light with metal nanoparticles.

Because the foundation of nanoparticle research is based on the size-dependent properties of nanomaterials. The studies of nanoparticles link to the synthesis, the controlling of its size, shape , chemical composition and the assembly of nanoparticles. These jobs do not necessarily require to create new materials with totally new composition.

Application potential of nanoparticles is extremely vast, however, the way for nanoparticle to go from laboratory to commerce take very long time.