Photocatalyst utilizes light to induce strong oxygenation on a catalyzer, which decomposes the attached dirt and organic matter into water and carbon dioxide. It has functions of disinfection, antiseptic, self-clean, deodorization and is non-pollutant and safe. There are more and more new environmental products on the markets applying photocatalyst techniques. Therefore, the purpose of this study is to establish an assessment model of green design analysis for photocatalyst environmental products. The results of study can serve as a reference and basis for industrial designers who work on the development of Photocatalyst environmental products and increase consumers' acceptance and reliability tow and this new item so as to improve the success of the launches of new products. The methodology of this study adopts related literature review, deep interview from experts and case study of photocatalyst air cleaner. Through the processes of MET matrix analysis, green design checking list and design strategy analysis of product life cycle, the result clearly appears the changes of photocatalyst environmental products. As the result, it can become the important rules for photocatalyst environmental product development in the future. Meanwhile, the result of the study indicates that the catalyst reacting in the course does not waste any energy and thus the application of photocatalyst will advance and expand the functions and advantages of the products. Owing to the unquestionable fact that the photocatalyst environmental products can promote the quality of life, photocatalyst technology has become the one the industry eagerly develops. By providing an assessment model of green design analysis for photocatalyst environmental products, the study hopes to contribute to the production of an ideal everlasting product, which exerts the green design efficiently and effectively, and in the long run the realization of a comfortable, pollution-free secure environment for the mankind.