As the expressive materials in modern art have been extended, the artists who use them felt the need of securing the safety and the supervision of their usage. The expressive materials including various art materials, daily articles and even waste materials are mostly composed of many kinds of chemicals. The hazardous substances can be used during the manufacturing process and their components and noxiousness are hard to grasp. In the composition of paper clay among the new art materials, the paper, the binder resin and solvent are the fundamental materials and a surfactant is used as a mixed accelerator. As a submaterial, a clay composition which is mixed with oil and fat or plasticizer is used to prevent the condition that is sticking on fingers when molding at the normal temperature. These clay compositions can’t guarantee the safety of the human body because hazardous substances can be exposed intact. In this study, to complement this and to obtain the excellent materials with physical properties, while the waste newspaper shredded during the paper clay production process, water and binder were used as a base, the binder added with Nanocatalysis (Ag + TiO2) was used. Also, for selecting the environment friendly art materials, the noxiousness of waste newspaper clay developed by the author was measured in 4 aspects of the surface observation, environmental hazards, antibacterial activity and deodorizing performance. As a result of observing the surface of waste newspaper clay, it was confirmed that it became fibrosis mixed with each other uniformly. The volatile organic compounds were proved to have no noxiousness to the human body in developing the functional art materials because all samples excepting the existing paper clay material had no detection of the formaldehyde, benzene and normal hexane with lower than 20mg/kg under the regulation of KS K 0611-2001. The wastenewspaper clay composed of Nanocatalysis showed the bacteria reduction rate as 98.2% for Staphylococcus aureus and 98% for vibrio cholerae. Also, every sample showed the very excellent antibacterial activity for average of 99% in the bacteria reduction rate regardless of the binder amount. Most used newspaper clays composed of Nanocatalysis (Ag + TiO2) binder showed more than 90% of deodorization rate within 30 minutes, confirming that the deodorization effect could be gained in a short time.