Exploration of Electromagnetic Resonance for Advanced CO2 Molecular Cracking: Towards a Revolution in Carbon Emission Management.

Abstract

Abstract This study focuses on optimizing the efficiency and selectivity of the CO2 cracking process using the method of experimental design and leveraging electromagnetic resonance. In a context where the utilization of CO2 as a valuable raw material is gaining increasing interest, the CO2 cracking process activated by electromagnetic resonance offers promising prospects. The experimental design method is implemented to deeply analyze the influential factors and their interactions within this process. Through a series of carefully designed experiments, the optimal parameters for achieving maximum CO2 conversion and increased product selectivity are determined. The results highlight the effectiveness of using electromagnetic resonance to facilitate the CO2 cracking process, while also highlighting its potential for the creation of high-value carbon-based products. This research contributes to the development of more efficient and sustainable methods for the utilization of CO2