Pyroelectric study of Mongolian tourmaline in electric power saving system by infrared spectroscopy

This Fourier Transformation Infrared (FTIR) experiment investigates the relevance of H۲O and other components’ structural environments. The electronic power saving system in this study was compromised by four element materials: tourmaline, ferrite, NaCl, and H۲O. FTIR spectroscopy in the range of ۳,۰۰۰ to ۴,۰۰۰ cm-۱ was then used to examine the hydroxyl ions of H۲O and tourmaline. The tourmaline crystal was found to be polar and therefore pyroelectric, electrical charges developing at the ends of the polar axis and the temperature changing from the IR activation with H۲O in the system. As a result, the tourmaline was shown to be related to the activation of H۲O as a pyroelectric substance.This Fourier Transformation Infrared (FTIR) experiment investigates the relevance of H۲O and other components’ structural environments. The electronic power saving system in this study was compromised by four element materials: tourmaline, ferrite, NaCl, and H۲O. FTIR spectroscopy in the range of ۳,۰۰۰ to ۴,۰۰۰ cm-۱ was then used to examine the hydroxyl ions of H۲O and tourmaline. The tourmaline crystal was found to be polar and therefore pyroelectric, electrical charges developing at the ends of the polar axis and the temperature changing from the IR activation with H۲O in the system. As a result, the tourmaline was shown to be related to the activation of H۲O as a pyroelectric substance.