In the extensive development of wearable equipment under a great background, market to reduce wear more wearable device of discomfort, beautiful design and the size of the smaller and thinner the shape of the demand is increasing. Market to have excellent heat resistance, durability and workability and comfortable materials in high demand. 

USES a unique resin design technology to develop a kind of transparent electrode materials. Even if the repeated expansion can also keep the electrical conductivity. The transparent electrode material contains formed by carbon nanotubes thin conductive layer, the conductive layer on the scalable resin base material. The conductive silver pulp using scalable resin as binder and silver filler composite. These materials will be beneficial to the realization of scalable display devices and sensors. 

Scalable scalable base material of transparent electrode design technology 

Indium tin oxide (ITO) [8] is widely used as a transparent electrode. Although indium tin oxide can withstand a certain degree of bending, but when folded or stretching prone to crack, so there is no guarantee that the electrical conductivity. In order to overcome this defect, the material need to be even in the case of tensile deformation or doesn't produce cracks of elasticity, still can guarantee the conductive path at the same time, to keep the electrical conductivity of the materials. Developed a technology, dedicated to the scalable resin membrane (with the best material design, suitable for telescopic) formed on the substrate of a thin layer of transparent conductive layer (by conductive carbon nanotubes has a large aspect ratio). The formation of a conductive path we use carbon nanotubes, and also give consideration to the scalability and electrical conductivity, thus creating a scalable transparent electrode materials, even after the deformation, still can keep the electrical conductivity.