€89.00
Clasp: 316L steel hexagon with gold coating on a black tube. Clasp made in Germany. Cord: High-tech cord made of PU with Aluminium wire. Steel magnet with laser logo engraving inside, easy...
€89.00
Clasp: 316L steel hexagon silver color on black or steel tube. Clasp made in Germany. Cord: High-tech cord made of PU with Aluminium wire. Steel magnet with laser logo engraving inside, easy...
€89.00
Clasp: 316L steel hexagon with gold coating on silver or black tube. Clasp made in Germany. Cord: High-tech cord made of PU with Aluminium wire. Steel magnet with laser logo engraving inside,...
€115.00
Clasp: 316L steel hexagon with bronze coating. Steel magnet with laser logo engraving inside, easy to dress. Clasp made in Germany. Cord: Outstanding superior quality leather cord (made in Germany). Gift...
€99.00
Clasp: 316L steel hexagon with gold coating. Cord: Outstanding superior quality antique red brown leather cord (made in Germany). Steel magnet with laser logo engraving inside, easy to dress. Gift box:...
€99.00
Clasp: 316L steel hexagon with gold coating on a black tube. Steel magnet with laser logo engraving inside, easy to dress. Clasp made in Germany. Cord: Outstanding superior quality leather cord (made in...
€99.00
Clasp: 316L steel hexagon with rose gold coating on steel tube. Steel magnet with laser logo engraving inside, easy to dress. Made in Germany. Cord: Outstanding superior quality leather cord (made in...
€115.00
Clasp: 316L steel hexagon on a steel tube. Steel magnet with laser logo engraving inside, easy to dress. Clasp made in Germany. Cord: Outstanding superior quality metallic leather cord (made in Germany). ...
€95.00
Clasp: 316L steel hexagon silver color on a black tube. Clasp made in Germany. Cord: Outstanding superior quality leather cord (made in Germany). Steel magnet with laser logo engraving, easy to...
This unique bracelet was designed by our R&D team with a 'bottom up' conception of the nanotechnologies, a conception which was introduced first by Nobel Laureate Physicist R. Fainman. For the creation of this nanotube bracelet clasp, Velichkovski and his team for the first time in jewelry creation, used the same computer programs which scientists usually use for quantum molecular modelling of DNA, nanotubes, and graphene structures.
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