Application of Nanomaterials in the Field of New Energy Environment and Economic Benefit Analysis

Abstract

The depletion of traditional fossil energy and the air pollution caused by the burning of fossil fuels have forced science authors from all over the world to gradually turn their attention to the development and utilization of renewable energy. However, limited by the defects of less exposed active surface and slow diffusion of traditional materials, nanomaterials have advantages that traditional materials cannot match and can significantly improve the performance of energy conversion and storage devices. Based on this, this paper studies the application and economic benefits of nanomaterials in the field of new energy and environment and provides a new idea for the development direction of nanomaterials in the field of new energy and environment. This article selects three different survey objects to correctly measure the energy consumed by the three groups of experimental vehicles traveling 1 km, 5 km, 10 km, and 20 km and the content of substances that pollute the environment. At the same time, the three traditional electrodes are connected. The electrochemical workstation of the system measures the electrochemical performance of nanomaterials to analyze the application of nanomaterials in the field of new energy and environment and the economic benefits brought by them. The experiment proves that AgPdMo/MoS2 NWs has the smallest charge transfer resistance of 259.3 Ω, the smallest impedance, and the fastest electron transfer rate. The charge transfer resistances of MoS2 NSs, AgPd NWs, and AgPdMo NWs are 37079 Ω, 398.4 Ω, and 916.6 Ω.