Abstract:
Background: There are experimental evidences of nanoparticle aspect of homoeopathic
medicine. It has also been established that the size of these nanoparticles (NPs)
decrease with increase in potency.
Aim: We have used this aspect of homoeopathic medicines in some technical applications.
Here, to improve the electrical properties of an electroactive polymer, poly (vinylidene
fluoride‑hexa‑fluoropropylene) (PVDF‑HFP), we have incorporated in the polymer film,
a very novel and unique probe Ferrum metallicum (FeM), a homoeopathic medicine, the
size of which can be changed by dilution, followed by controlled agitation.
Settings and Design: The composite film was synthesized by solution‑casting
technique. Using standard procedures, the characterization studies by X‑ray
diffraction, field‑emission scanning electron microscope, and Fourier transform infrared
spectroscopy were performed to check the incorporation of the NPs in the film.
Material and Method: Each sample was freshly prepared 2 times by doping FeM in
PVDF‑HFP matrix using solution‑casting technique, and the experiment was repeated
with each sample for 5 times.
Statistical Analysis: This being a continuous data recording, error bars cannot be
shown. We have presented the graphs which have been repeated maximum number
of times.
Result and Conclusion: Our result shows that the electrical properties such as dielectric
constant, tangent loss, and electrical conductivity of these polymer films get significantly
modified due to incorporation of this homoeopathic nanomedicine and the effect increases with the increase
in concentration of the probe up to a critical value. These FeM‑incorporated PVDF‑HFP films will have potential applications as high‑energy storage devices such as multilayered high‑charge storage device.
