Investigating the Effects of Taheri Consciousness Field 1 on the Enzyme-Like Behavior of Gold Nanozyme

Abstract

The study of chemical structures, with the bio-molecular activity, that mimic the behavior of biological molecules has always been of interest to researchers 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 potential in replacing natural enzymes. Taheri Consciousness Fields, as novel Fields, was founded and introduced by Mohammad Ali Taheri, according to previous several studies. These Fields are neither matter nor energy, having a different nature from known physical fields. The TCFs are capable of influencing the matter and energy of the studied system in order to make it more functional and efficient. These Fields are neither matter nor energy, therefore cannot be measured directly. But it is possible to study their effects on objects through controlled experiments. In this study, we investigate the effects of a type of Taheri Consciousness Field 1 (TCF1) on the physicochemical structure and function of the gold Nano-chemical models. 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 TCF1. The results of this study confirmed a reproducible effect of TCF1 on the gold Nanozyme behaviors. We suggest that the effect of TCFs on various biomimetic molecules should be investigated to further understand the mechanism of TCFs.