Among others things, the Christmas and holiday
season is a time of giving and receiving gifts.
In many instances when I think about gifts the first thing that pops
into my head---batteries, and more batteries!
I
once bought my kids a set of batteries for Christmas with a note on them saying
“toys not included”. Bernard Manning
So, the other day in one of my periods of shallow
thought, some would call it daydreaming, I was thinking about Ni-Cad batteries,
you know the rechargeable kind. OK, I
know where nickel is mined and produced but what about cadmium? Is cadmium found naturally, and mined, or is
it a by-product of some other mineable metal?
Beats me but I don’t think cadmium is a mineral found au naturel. However, I do remember that I have an obscure
cadmium mineral tucked away in my collection.
By this time my curiosity was piqued so off I went to try and find
answers.
The Ni-Cad batteries were just about the first
rechargeable batteries: they are
charged, store the energy, discharged in a load, and then recharged. The Ni-Cad batteries use a nickel
oxide-hydroxide as a positive electrode and metallic cadmium as the negative
electrode. These rechargeable batteries
allow for a chemical reaction as they discharge when a load is detected. At the positive electrode the reaction is
2NiO(OH)+2H2O+2e- --------->2Ni(OH)2+2OH-
and potassium hydroxide is used as the alkaline electrolyte. At the negative electrode the reaction is
Cd+2OH- -------> Cd(OH)2+2e- So in the total reaction nickel oxide
hydroxide and Cd and water form a nickel hydroxide and cadmium hydroxide. When recharging takes place the total
reaction is just the opposite and the nickel and cadmium hydroxides break down
into the free cadmium and water and nickel hydroxide. Currently these one-time ubiquitous Ni-Cad
batteries seem to be on their way out as more efficient rechargeable batteries
such as nickel metal hydride (NiMH), lithium ion polymer (Li-ion polymer) and
lithium ion (Li-ion) are coming in as replacements. These newer batteries have bounded into use
for a couple of reasons: 1) they are less costly to manufacture than Ni-Cad
batteries; and 2) cadmium is toxic to living organisms and quite toxic in the
environment.
As for cadmium, my initial thought about the element
occurring “naturally” as a mineral was wrong (certainly not the first
time). Webmineral.com noted that cadmium
was “found in the heavy non-magnetic fraction of a mechanical concentrate from
a gabbro intrusion…from the Ust’-Khannin intrusive, Vilyui River basin, eastern
Siberian platform.” MinDat listed the
Goldstrike Mine in Eureka County, Nevada, as producing native cadmium. However, both of these occurrences are very
minor and more of a curiosity than a source of the metal.
So, if native cadmium is extremely rare and almost
non-existent, where does cadmium needed in industry “come from?” Perhaps from minerals containing
cadmium? What are these minerals?
For starters, all cadmium-bearing minerals are quite
rare and only greenockite, a sulfide [CdS], is well known (and some of that may
be hawleytite). Niedermayrite [Cu4Cd(SO4)2(OH)6-4H2O]
is a hydrated copper cadmium sulfate hydroxide; otavite [CdCO3] is a
cadmium carbonate; cadmoindite [CdIn2S4] is cadmium
indium sulfide while cadmoselite [CdSe] is a cadmium selenide; hawleyite [CdS]
is a sulfide crystalizing in the Isometric Crystal System and is a dimorph
(same chemical formula) of greenockite that is Hexagonal; the arsenate in the
group is keyite [Cu3Zn4Cd2(AsO4)6-2H2O]. There may be others?
So, cadmium is produced as a byproduct during the
refining of zinc (primarily), copper and lead ores. It appears that ores such as native copper,
galena, sphalerite and smithsonite have trace amounts of cadmium present. I also
found a note that stated cadmium is produced in countries that refine these
ores as opposed to countries that mine the ore.
In some cases these countries are the same as the mines and refineries are
together.
Within those rare minerals listed above I only have a
single small specimen of greenockite. In
fact, if an “ordinary rockhound” has a cadmium mineral in their collection it
is usually greenockite, or at least labeled as such since it is sometimes
confused with hawleyite.
Greenockite (CdS) is a sulfide mineral that contains the negative
anion sulfur (S) plus the positive cation cadmium (Cd).
The most spectacular specimens have six-sided (hexagonal) crystals that
are hemimorphic (are terminated in different manners at each end of the C axis)
and are red to red-brown in color. Other
specimens are massive in nature and tend to orange to
orange-yellow to yellow in color. The
streak is red to red orange to brown.
The crystals are usually vitreous while the crusting form is earthy to
resinous. Greenockite is fairly soft at
3.0 to 3.5 (Mohs) and crystals are more transparent/translucent while
encrustations are usually opaque.
Crystals tend to break with a conchoidal fracture.
Photomicrographs of
greenockite occurring as honey orange encrustations with a couple of red poorly
formed crystals. Width ~1.1 cm. Dark metallic mineral is most likely
arsenopyrite.
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Photomicrographs of
greenockite occurring as honey orange encrustations. Width ~6 mm.
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Greenockite is a secondary mineral and can be
located in a variety of environments. For
example, at Patterson, New Jersey, vugs in the basalt produce greenockite along
with prehnite and zeolites. In the old zinc
mines near Franklin, New Jersey, greenockite is found as earthy coatings on
sphalerite. In some of the Tri-State (Missouri,
Kansas, and Oklahoma) lead and zinc mines greenockite is found as an earthy
crust on smithsonite and sphalerite. In
addition, greenockite has been found in some slags where smithsonite was smelted. It is never a common mineral and tough to
identify when the habit is encrusting rather than crystalline. It is a dimorph of hawleyite (CdS) and quite similar in appearance;
however, hawleyite has not been reported from the Bolivia mines so I am
sticking with greenockite.
My specimen came from the tin (cassiterite) mines,
specifically the Siglo XX Mine (Siglo
Veinte Mine), Llallagua, Rafael Bustillo Province, Potosi Department, Bolivia.
An interesting tidbit or
two about toxic cadmium: cigarette smoke
contains cadmium as does coal where the element ends up as part of the flue
dust. Many phosphate fertilizers contain
cadmium which is then transferred to agricultural soil (and maybe to the water supply?). Vincent Van Gogh was a big fan of cadmium
based pigments for his paintings. And so, it goes.