Controlling zinc oxide particle size for sunscreen applications

What is claimed is: 1. A method, comprising: manipulating the size of each of multiple zinc oxide particles to be below a predetermined maximum threshold of 80 nanometers and above a predetermined minimum threshold of 30 nanometers; coating each of the multiple zinc oxide particles with a coating of silicon dioxide of a user-controlled thickness based on a desired reduction of scattering of visible light by the multiple zinc oxide particles; aggregating the multiple silicon dioxide-coated zinc oxide particles into one or more clusters, wherein each cluster is a size of greater than 200 nanometers, and wherein said aggregating comprises binding the silicon dioxide-coated zinc oxide particles within each of the clusters to a respective anchoring particle, wherein each respective anchoring particle comprises a zinc oxide particle having a modified surface, wherein the modified surface of each respective anchoring particle physically contacts each of the silicon dioxide-coated zinc oxide particles within the respective cluster via direct silicon dioxide-to-modified surface of anchoring particle contact, and wherein said binding comprises binding the silicon dioxide-coated zinc oxide particles to the anchoring particle such that the silicon dioxide-coated zinc oxide particles bound to the respective anchoring particle are optically separate from one another; generating a first media layer by combining four media consisting of water, coconut oil, mineral oil, and polyparabens; generating a second media layer by combining five media consisting of water, coconut oil, mineral oil, polyparabens, and shea butter; and creating the sunscreen composition by (i) integrating the one or more clusters into the first media layer and (ii) applying the second media layer on the integration of the first composition formed by media layer and the one or more clusters. 2. A method, consisting of: manipulating the size of each of multiple zinc oxide particles to be below a predetermined maximum threshold of 80 nanometers and above a predetermined minimum threshold of 30 nanometers; coating each of the multiple zinc oxide particles with a coating of silicon dioxide of a user-controlled thickness based on a desired reduction of scattering of visible light by the multiple zinc oxide particles; aggregating the multiple silicon dioxide-coated zinc oxide particles into one or more clusters, wherein each cluster is a size of greater than 200 nanometers, and wherein said aggregating comprises binding the silicon dioxide-coated zinc oxide particles within each of the clusters to a respective anchoring particle, wherein each respective anchoring particle comprises a zinc oxide particle having a modified surface, wherein the modified surface of each respective anchoring particle physically contacts each of the silicon dioxide-coated zinc oxide particles within the respective cluster via direct silicon dioxide-to-modified surface of anchoring particle contact, and wherein said binding comprises binding the silicon dioxide-coated zinc oxide particles to the anchoring particle such that the silicon dioxide-coated zinc oxide particles bound to the respective anchoring particle are optically separate from one another; generating a first media layer by combining four media consisting of water, coconut oil, mineral oil, and polyparabens; generating a second media layer by combining five media consisting of water, coconut oil, mineral oil, polyparabens, and shea butter; and creating the sunscreen composition by (i) integrating the one or more clusters into the first media layer and (ii) applying the second media layer on the integration of the first composition formed by media layer and the one or more clusters.