Wouldn’t it be nice to have a transparent sunscreen lotion and yet protect your skin from harmful UV ? Engineered nanoparticles can now provide the right kind of mask.
Sunscreen products work by absorbing or scattering UV radiation. Formulating superior sunscreen is of utmost importance in protecting our skin from sunburn, skin cancer and other deleterious effects. This is especially true for people with light skin due to lower concentration of melanin in their skin, which is the natural absorber and dissipater of UV radiation. The normal ZnO used as an active ingredient in sunscreen are microdimensional and because of this, they scatter light and appear white when applied on the skin, which is not aesthetically pleasing. Hence, sunscreen industry is now considering ZnO nanoparticles (NPs) as an efficient UV blocker, which can reduce the scattering problem faced by its bulk counterpart, thereby making it appear transparent when applied to skin surface. However, these transparent ZnO nanoparticles (NPs) have UVA (~385 nm) emission, which penetrates up to the dermal layer of skin. This highly penetrating UVA emission from ZnO NPs will enhance the generation of cancer inducing radicals. Therefore, the elimination of this harmful UVA emission from ZnO NPs is much sought after for the development of safer ZnO NPs based sunscreens.
In an effort to tackle this problem, research scholar Mr. A. Asok, Prof. A. R. Kulkarni and Dr. M. N. Gandhi have come up with an ingenious solution that promises to play a significant role in the science of sunscreen active ingredients. They have engineered a more potent form of zinc oxide (ZnO), the core ingredient in most conventional sunscreens, by introducing nonstoichiometric defects in the zinc oxide nanocrystals. They refer to it as engineered zinc oxide (EZnO) nanoparticles. These EZnO NPs have characteristic optical transition profiles which can bypass the harmful UVA emission present in normal ZnO NPs, at the same time making it a broad band UV absorber and broad band visible emitter. This visible emission is neither harmful nor dangerous for the skin when compared to UVA emission from normal ZnO NPs. In addition to its improved safety, the broad band emission from EZnO NPs matches well with the in vivo human skin autofluorescence. This property of EZnO also imparts an illusion of smoothing wrinkled skin and this camouflaging effect can find its utility in wrinkle free creams. Thus EZnO clearly stands out as the potential and promising candidate for one of the major ingredients of sunscreen formulation not only for its protecting ability from harmful UVA emission but also for its cosmetic value.
This work has a patent IPO 3713/MUM/2013, Filed in November 26, 2013.
Image courtsey: http://www.nanoandme.org/images/cosmetics_surfer.jpg