12-16. Vanadinite #7.

A green (CI) Chlorine molecule at the center of the vanadinite very dynamic symmetry!

How does that mineral come in such warm and pleasant red-ochre? Colorist need to go back to the drawing board!

From a resource by H. Okudera



12-14. Vanadinite #5.

Tiling may seem like a very abstract challenge for some. Nature knows different. This is a front view of a Vanadinite crystal unit cell. A stable and sturdy prismatic hexagonal shell is all that was needed to contain this busy pack of unruly atoms.

It makes for quite an uncommon and beautiful mineral too!

From a resource by S. Hendricks, M. Jefferson, and V. Mosley.



12-13. Vanadinite #4.

A very playful & Christmassy crystal of Vanadinite. Unit structure, atoms, even the Van der Waal force curtain between atoms in on! Bold maybe, but nature knows best!

From a resource by Y. Dai and J. Hughes.



12-10. Vanadinite #1.

Vanadinite. Ancient lores say its crystal is beneficial to writers and boost creativity. They could add Kabuki opera and Juggling, so elegant and dynamic is its geometry and perfect prismatic hexagonal structure!

Vanadinite is unusual as a mineral as it’s only occurring as the result of alterations to a pre-existing material. Its bright-red and orange crystals often come perfectly formed and are sought after by many collectors.

It was first discovered in 1801 in Mexico. Vanadinite deposits have since been found in South America, Europe, Africa, and North America.

From a resource by H. Okudera.



12-09. Hematite #7.

If we were to revisit cave painting a few thousand years forward, what would it look like? Hematite is still quite a source of inspiration!

From a resource by E. Maslen, V. Streltsov, N. Streltsova, and Ishizawa.



12-08. Hematite #6.

Do you wonder what a hematite sounds like?

Its unit cell structure gives us the score, the notation, the key, even the notes’ succession and tempo!

I may rework this artwork as a multimedia file as soon as done with this project focusing uniquely on the visual aspect of the geometry of minerals. The challenge is intriguing!

From a resource by L. Finger and R. Hazen


12-07. Hematite #5.

Opposites attract each other!

Case in point – the stable and elegant structure of the hematite unit cell and the apparent chaos of its multitude of atoms. The result? A mineral that brings a beautiful variation of red as a powder but not much else in the tangible reality.

From a resource by L. Finger and R. Hazen.