April 06, 2023 4 min read


Shungite, a black, non-crystalline mineraloid, has gained popularity recently due to its purported healing, water purification, and electromagnetic protection properties. This blog post will delve into the history of shungite, its known uses, and potential applications. We will explore the various types of shungite, their unique characteristics, and the potential benefits they may offer.

A Brief History of Shungite

Shungite is named after the Shunga village in Karelia, Russia, where it was first discovered. This enigmatic mineraloid dates back around 2 billion years and is believed to have formed from the biogenic remains of ancient, microscopic organisms (Buseck et al., 1991). The first documented use of shungite can be traced back to the 18th century, when Peter the Great, the Russian Emperor, used it to purify his soldiers' water (Ivlev et al., 2015).


  • Buseck, P. R., Dunin-Borkowski, R. E., Devouard, B., & Fink, U. (1991). Fullerenes from the geological environment. Science, 254(5034), 835-838.
  • Ivlev, A. A., Kiselev, V. M., & Zanin, Y. N. (2015). Shungite – a natural fullerene. European Chemical Bulletin, 4(3), 83-88.

The Proven Uses of Shungite

Water Purification

Shungite has been used centuries to purify water due to its high carbon content, which can adsorb impurities such as bacteria, heavy metals, and organic substances (Tyszczuk-Rotko et al., 2018). Several studies have confirmed its ability to effectively remove contaminants from water, thus making it a viable natural water purifier (Lahermo et al., 1999).

Healing Properties

The healing properties of shungite have been a subject of much debate and research. Anecdotal evidence suggests it may possess anti-inflammatory, antioxidant, and antibacterial properties. However, more scientific research is needed to substantiate these claims.


  • Tyszczuk-Rotko, K., Wesołowski, W., & Długaszewska, J. (2018). The adsorptive removal of heavy metal ions from aqueous solutions using shungite. Chemosphere, 205, 468-475.
  • Lahermo, P., Ilmasti, M., & Juntunen, R. (1999). Geochemical Atlas of Finland. Part 3: Environmental Geochemistry, Stream Waters, 1-218.

Shungite and EMF Protection

The electromagnetic shielding properties of shungite are attributed to its high carbon content, specifically its fullerenes or "buckyballs," which are unique carbon nanostructures (Ivlev et al., 2015). While some studies have shown that shungite can attenuate electromagnetic radiation (Bogdanova et al., 2008), more research is needed to confirm its effectiveness in protecting against EMFs and 5G technology.

Shungite Gem Chakra Bracelets- Protection from EMF and energy support. 


  • Ivlev, A. A., Kiselev, V. M., & Zanin, Y. N. (2015). Shungite – a natural fullerene. European Chemical Bulletin, 4(3), 83-88.
  • Bogdanova, E. V., Goryachev, S N., & Tselinskii, I. V. (2008). Electromagnetic shielding properties of shungite materials. Russian Journal of Nondestructive Testing, 44(12), 864-871.

Types of Shungite

There are three main types of shungite, each with different compositions and uses:

Type I- Elite or Noble Shungite: This type of shungite contains 90-98% carbon and is considered the most potent and valuable due to its high concentration of fullerenes (Murr et al., 2002). It is primarily used for water purification and making jewelry, as well as for potential healing purposes.

Type II - Petrovsky Shungite: Containing 50-70% carbon, Petrovsky shungite is used for decorative and construction purposes (Kiselev et al., 2015). It can also be used for water purification, albeit less effectively than elite shungite.

Type III - Regular Shungite: With a carbon content of 30-50%, regular shungite is often used for making sculptures, souvenirs, and trinkets. It is the most common and affordable type but has limited applications in water purification and healing (Kiselev et al., 2015).


  • Murr, L. E., Soto, K. F., Garza, K. M., & Guerrero, P. A. (2002). Carbon nanotubes, nanocrystal forms, and complex nanoparticle aggregates in common fuel-gas combustion sources and the ambient air. Journal of Nanoparticle Research, 4(3), 179-192.
  • Kiselev, V. M., Zanin, Y. N., & Ivlev, A. A. (2015). Natural shungite materials. Russian Journal of General Chemistry, 85(9), 2181-2188.

Shungite's Unique Composition: The Buckyball Mystery

The presence of fullerenes, specifically C60 and C70, in shungite has been a subject of interest and curiosity among scientists (Buseck et al., 1991). Fullerenes, also known as "buckyballs," are carbon molecules arranged in a spherical pattern and were first identified in 1985 (Kroto et al., 1985). The discovery of fullerenes in shungite, a 2-billion-year-old mineraloid, raises questions about their origins and whether they are native to Earth or possibly extraterrestrial. While the debate continues, further research is needed to illuminate this mystery.


  • Buseck, P. R., Dunin-Borkowski, R. E., Devouard, B., & Fink, U. (1991). Fullerenes from the geological environment. Science, 254(5034), 835-838.
  • Kroto, H. W., Heath, J. R., O'Brien, S. C., Curl, R. F., & Smalley, R. E. (1985). C60: Buckminsterfullerene. Nature, 318(6042), 162-163.

Shungite could play a crucial role in water purification, especially in areas with limited access to clean water. It may be further explored as a natural EMF shielding material. Finally, its potential healing properties warrant further research.

Moreover, the unique composition of shungite's fullerenes may have potential applications in nanotechnology, materials science, and energy storage. For instance, fullerenes have been studied for their potential use in superconductors, photovoltaics, and hydrogen storage (Ruoff et al., 1993; Diederich & Thilgen, 1996). As our knowledge of shungite's properties advances, these applications could pave the way for innovative solutions to some of the world's most pressing challenges.


  • Ruoff, R. S., Tse, D. S., Malhotra, R., & Lorents, D. C. (1993). Solubility of fullerene (C60) in a variety of solvents. The Journal of Physical Chemistry, 97(27), 7012-7015.
  • Diederich, F., & Thilgen, C. (1996). Covalent fullerene chemistry. Science, 271(5252),317-323.


Shungite, with its unique composition and properties, has captured the attention of researchers and enthusiasts alike. Its proven uses in water purification, potential applications in EMF protection, and healing properties make it a fascinating material to explore.

Leave a comment

Comments will be approved before showing up.