Not many people know about Boron Nitride. Boron nitride is a compound which is formed when boron and nitrogen are bound by heat and chemical reaction. Boron nitride exists in a crystalline form which is quite similar to carbon lattice. Boron nitride is known for its thermal stability, catalytic action, conductivity and high hardness. Due to its terrific chemical and thermal stability, the ceramics made from boron nitride are generally used as parts of high-temperature equipment. Many scientists claim that boron nitride has huge potential uses in upcoming nanotechnology research.
After witnessing the exceptional impact of Guruji Mahendra Trivedi’s biofield energy transmissions in Materials Science, scientists sought to further test the impact of Guruji Mahendra Trivedi’s biofield energy on boron nitride. In this study, the boron nitride was divided into two samples; one the control and one treated with the biofield energy transmitted by Guruji. After the biofield energy treatment, both the samples were compared using surface area analysis, X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FT-IR) technology. The derived results showed that the biofield energy had a highly beneficial impact on boron nitride. The XRD showed a radical change in the crystallinity, molecular weight, density and lattice parameter of the boron nitride powder of the biofield treated sample in comparison to the control. There was a 33.30% of increase in crystallite size and a substantial 10.33% increase in the surface area of the biofield treated boron nitride. The energy treated boron nitride also changed from hexagonal BN (h-BN) to rhombohedral boron nitride (r-BN), which was observed through FT-IR analysis.
The biofield energy transmitted by Guruji Mahendra Trivedi was able to change the surface area, as well as the atomic and crystal structure of boron nitride. By doing so, Guruji has enhanced the capabilities of boron nitride, improving its optoelectronic properties and making it more useful during catalytic reactions. The results are very promising, and further prove that biofield energy and the Trivedi Effect has not only proven itself to be invaluable to scientific fields of study like agriculture, microbiology, biotechnology, animal husbandry, cancer, genetics, and human health, but it has consistently proven itself to also be invaluable to the field of Materials Science, with even greater application to humanity and the developing world we live in.
To view the full peer-reviewed science publication titled “Influence of Biofield Treatment on Physical, Structural and Spectral Properties of Boron Nitride” published in the journal Material Science & Engineering, visit: