Minerals & Gemstone 480x104
Minerals & Gemstone 480x104
wpdiamonds.com
Minerals V2 banner 160x600



Advertising Information

Sharp Lustrous Skutterudite Crystals

The skutterudite Mineral Series




The Skutterudite series is a group of closely related arsenide minerals with varying rates of cobalt, nickel, and sometimes iron. The cobalt-rich end member is Skutterudite, and the nickel-rich end member is Nickelskutterudite. Another, lesser-known mineral of this series is Ferroskutterudite, a rare iron-rich member.

Chloanthite was originally described as an individual mineral species prior to 1987, after which it was discredited by the IMA and merged into Nickelskutterudite. Smaltite was the former name of the cobalt-rich end member, and this term has now been discredited by the IMA as well. Despite these terms being discredited, they are still occasionally used, and are especially seen on old labels. Smaltite may be used both as a synonym for Skutterudite, or to describe an intermediary member with a similar cobalt and nickel content.

Although most Skutterudite is uninteresting in form, several localities have produced sharp, lustrous crystals that are striking in aesthetics. Skutterudite may partially alter to pink Erythrite, and Ferroskutterudite to green Annabergite. Skutterudite is named after its type locality of Skutterud, Norway.
Chemical Formula Skutterudite: (Co,Ni)As3
Nickelskutterudite: (Ni,Co)As3
[Arsenic may be slightly deficient in Nickelskutterudite, with a possible formula of (Ni,Co)As3-x]
Ferroskutterudite:
 (Fe,Co)As3
Composition Cobalt nickel arsenide, sometimes with some iron
Variable Formula (Co,Ni,Fe)As3
Color Silver white to gray, occasionally with an iridescent tarnish
Streak Silver gray
Hardness 5.5 - 6
Crystal System Isometric
3D Crystal Atlas
(Click for animated model) 
Crystal Forms
and Aggregates
Crystals are cubic, octahedral, and pyritohedral, though more often in combination of these crystal types. Also forms in sparkly botryoidal and drusy masses. Most often in masses of small crystals, grainy, and massive.
Transparency Opaque
Specific Gravity 6.4 - 6.9
Luster Metallic
Cleavage 3,2
Fracture Uneven
Tenacity Brittle
In Group Sulfides; Arsenides
Striking Features Color, streak, crystal habits, and mode of occurrence.
Environment In mesothermal veins of sulfide deposits.
Rock Type Sedimentary, Metamorphic
Popularity (1-4) 3
Prevalence (1-3) 3
Demand (1-3) 2


Skutterudite AUCTIONS
OTHER NAMES
Arsenoferrite



USES
Skutterudite is used as an ore of cobalt and nickel. Well-crystallized specimens are highly valued among collectors.

NOTEWORTHY LOCALITIES
The Bou Azer District, Morocco, produces the best examples of Skutterudite, in large, lustrous crystals, often in a cuboctadral shape. Good crystals have come from the Schneeberg District in the Erzgebirge, Saxony, Germany; and small interconnected crystals from Manuel-Mercedes Mine, Cala, Andalusia, Spain. In Canada, Skutterudite is found in the orefields at Cobalt, Timiskaming District, Ontario.

Well-formed crystals of Nickelskutterudite have come from the Schlema and Schneeberg Districts, Erzgebirge, Saxony, Germany.

COMMON MINERAL ASSOCIATIONS
Arsenopyrite, Quartz, Siderite, Cobaltite, Silver, Calcite, Nickeline, Erythrite, Annabergite

DISTINGUISHING SIMILAR MINERALS
Arsenopyrite - Forms in different crystal habits, darker streak.
Pyrite - Usually has a yellowish color that is lacking in Skutterudite.
Galena - Lower hardness, higher specific gravity, darker color.
Cobaltite - Has perfect cleavage; otherwise difficult to distinguish.


skutterudite PHOTOS
 
ADDITIONAL RESOURCES
 
DISCUSSIONView Forum | Post to Forum
Have a question about Skutterudite? Visit our Q&A Community and ask the experts!
PAGE SPONSOR  

To sponsor this page, click here.

Let us know how we can update this page
(Click for more details)
We strive for accurate content and locality information. If you feel any of the content is incorrect, or if you feel we are missing vital locality information, please fill out the form below so we can update the site. If you are requesting a locality be added, please only include significant locality occurences for the mineral.