The study of chemical structures with bio-molecular activity that mimic the behavior of biological molecules has always been of interest to researches in the field of early life as well as technology and industry. Among these compounds, a type of nanomaterial with enzyme-like activity, called Nanozyme, has comparable performance with endogenous cellular compounds and has great potentials in replacing natural enzymes. Previously, in several studies, it has been determined that Consciousness Fields (CFs) according to Taheri, have a different nature from the known physical fields and have the ability to affect the matter and energy of a system under study and lead it to a more optimal and functional performance. Inthis study, we investigate the effects of a type of CF, named CF (A), on the physicochemical structure and function of gold Nano-chemical models. In the present study, using electron microscopy as well as dynamic light scattering and kinetic assays, we observed significant changes in the nanoparticle particle size distribution (about 20%) and its kinetic constants (about 4%) under the influence of the CF. According to the results of this study, we observe a reproducible effect of CF on gold Nanozyme behaviors. Further studies on the effect of CFs on various biomimetic molecules are fully justified to better understand CFs mechanism of action.
Keywords: Au-Nanozyme, Biomimetic, Consciousness Fields, enzyme-like activity