Tl – Thallium

Our thallium products and information

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Hutchinsonite from Peru

There are ~124 named minerals containing Silver listed on mindat we have yet to add to our shop:

Amgaite	Tl₂⁺³Te⁶⁺O₆	Nataliyamalikite	TlI	Vaughanite	TlHgSb₄S₇
Arsiccioite	AgHg₂Tl(As,Sb)₂S₆	Palladothallite	Pd₃Tl	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Auerbakhite	MnTl₂As₂S₅	Parapierrotite	TlSb₅S₈	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Avicennite	Tl₂O₃	Philrothite	TlAs₃S₅	Wallisite	(Cu,Ag)TlPbAs₂S₅
Bernardite	TlAs₅S₈	Picotpaulite	TlFe₂S₃	Weissbergite	TlSbS₂
Biagioniite	Tl₂SbS₂	Pierrotite	Tl₂(Sb,As)₁₀S₁₆	Vaughanite	TlHgSb₄S₇
Boscardinite	TlPb₄(Sb₇As₂)S₁₈	Pokhodyashinite	Cu₂Tl₃Sb₅As₂S₁₃	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Bukovite	Tl₂(Cu,Fe)₄Se₄	Protochabournéite	Tl_4-xPb_2+2xSb_20-x-yAs_yS₃₄	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Carlinite	Tl₂S	Raberite	Tl₅Ag₄As₆SbS₁₅	Wallisite	(Cu,Ag)TlPbAs₂S₅
Chabournéite	Ag_zTl_8-x-zPb_4+2xSb_40-x-yAs_yS₆₈	Raguinite	TlFeS₂	Weissbergite	TlSbS₂
Chalcothallite	Tl₂(Cu,Fe)₆SbS₄	Ralphcannonite	AgZn₂TlAs₂S₆	Vaughanite	TlHgSb₄S₇
Christite	TlHgAsS₃	Rathite	Ag₂Pb_12-xTl_x/2As_18+x/2S₄₀	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Chrysothallite	K₆Cu₆Tl³⁺Cl₁₇(OH)₄ · H₂O	Rayite	Pb₈(Ag,Tl)₂Sb₈S₂₁	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Criddleite	TlAg₂Au₃Sb₁₀S₁₀	Rebulite	Tl₅Sb₅As₈S₂₂	Wallisite	(Cu,Ag)TlPbAs₂S₅
Crookesite	Cu₇(Tl, Ag)Se₄	Richardsollyite	TlPbAsS₃	Weissbergite	TlSbS₂
Cuprostibite	Cu₂(Sb,Tl)	Rohaite	(Tl,Pb,K)₂Cu_8.7Sb₂S₄	Vaughanite	TlHgSb₄S₇
Dalnegroite	(Tl₄Pb₂)(As₁₂Sb₈)S₃₄	Routhierite	Tl(Cu,Ag)(Hg,Zn)₂(As,Sb)₂S₆	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Dekatriasartorite	TlPb₅₈As₉₇S₂₀₄	‘Routhierite Group’	Me1⁺Me2₂²⁺Tl(As,Sb)₂S₆	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Dewitite	Ag_zTl_10-x-zPb_2xSb_42-x-yAs_yS₆₈	Sabatierite	TlCu₆Se₄	Wallisite	(Cu,Ag)TlPbAs₂S₅
Dorallcharite	TlFe₃³⁺(SO₄)₂(OH)₆	Shimenite	Tl₅Sb_21-yAs_yS₃₄	Weissbergite	TlSbS₂
Drechslerite	Tl₄(Sb_4-xAs_x)S₈ (1 < x < 2)	Sicherite	TlAg₂(As,Sb)₃S₆	Vaughanite	TlHgSb₄S₇
Écrinsite	AgTl₃Pb₄As₁₁Sb₉S₃₆	Simonite	TlHgAs₃S₆	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Edenharterite	PbTlAs₃S₆	Spaltiite	Tl₂Cu₂As₂S₅	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Ellisite	Tl₃AsS₃	Stalderite	Tl(Cu,Ag)(Zn,Fe,Hg)₂(As,Sb)₂S₆	Wallisite	(Cu,Ag)TlPbAs₂S₅
Enneasartorite	Tl₆Pb₃₂As₇₀S₁₄₀	Steropesite	Tl₃BiCl₆	Weissbergite	TlSbS₂
Erniggliite	Tl₂SnAs₂S₆	‘Stibioellisite’	Tl₃SbS₃	Vaughanite	TlHgSb₄S₇
Evdokimovite	Tl₄(VO)₃(SO₄)₅(H₂O)₅	Thalcusite	Tl₂Cu₃FeS₄	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Fangite	Tl₃AsS₄	Thalfenisite	Tl₆(Fe,Ni,Cu)₂₅S₂₆Cl	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Ferrostalderite	CuFe₂TlAs₂S₆	‘Thallian Voltaite’	(K,Tl)₂Fe₅²⁺Fe₃³⁺Al(SO₄)₁₂ · 18H₂O	Wallisite	(Cu,Ag)TlPbAs₂S₅
Ferrovorontsovite	(Fe₅Cu)_Σ6TlAs₄S₁₂	Thalliomelane	Tl(Mn⁴⁺_7.5Cu²⁺_0.5)O₁₆	Weissbergite	TlSbS₂
Gabrielite	Tl₆Ag₃Cu₆(As,Sb)₉S₂₁	‘Thallium’	Tl	Vaughanite	TlHgSb₄S₇
Gillulyite	Tl₂As_7.5Sb_0.3S₁₃	‘Tl-, Ar-bearing Pyrite’	(Fe,Tl)(S,As)₂	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Gladkovskyite	MnTlAs₃S₆	‘Tl-bearing Al-(K)’	(K,Tl)Al(SO₄)₂ · 12H₂O	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Gungerite	TlAs₅Sb₄S₁₃	‘Tl-bearing Carnotite’	(K,Tl)₂(UO₂)₂[VO₄]₂ · 3H₂O	Wallisite	(Cu,Ag)TlPbAs₂S₅
Hatchite	AgTlPbAs₂S₅	‘Tl-bearing Cryptomelane’	(K,Tl)(Mn₇⁴⁺Mn³⁺)O₁₆	Weissbergite	TlSbS₂
Hendekasartorite	Tl₂Pb₄₈As₈₂S₁₇₂	‘Tl-bearing Murunskite’	(K,Tl)₂Cu₃FeS₄	Vaughanite	TlHgSb₄S₇
Hephaistosite	TlPb₂Cl₅	Thalliumpharmacosiderite	TlFe₄[(AsO₄)₃(OH)₄] · 4H₂O	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Heptasartorite	Tl₇Pb₂₂As₅₅S₁₀₈	Thunderbayite	TlAg₃Au₃Sb₇S₆	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Honeaite	Au₃TlTe₂	Tsygankoite	Mn₈Tl₈Hg₂(Sb₂₁Pb₂Tl)S₄₈	Wallisite	(Cu,Ag)TlPbAs₂S₅
(Hutchinsonite) above	TlPbAs₅S₉	Twinnite	Pb_0.8Tl_0.1Sb_1.3As_0.8S₄	Weissbergite	TlSbS₂
Imhofite	Tl_5.8As_15.4S₂₆	‘UM1970-20-S:AsSbTl’	Tl(As,Sb)₁₀S₁₆	Vaughanite	TlHgSb₄S₇
Incomsartorite	Tl₆Pb₁₄₄As₂₄₆S₅₁₆	‘UM1976-20-S:SbTl’	TlSb₁₁S₁₇	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Jankovićite	Tl₅Sb₉(As,Sb)₄S₂₂	‘UM1982-10-S:AsSbTl’	Tl(Sb,As)₇S₁₁	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Jentschite	TlPbAs₂SbS₆	‘UM1991-16-S:CuFeTl’	(Cu,Tl,Ag)FeS₂	Wallisite	(Cu,Ag)TlPbAs₂S₅
Kalithallite	K₃Tl³⁺Cl₆ · 2H₂O	‘UM1993-13-S:BiCuTl’	(Cu,Fe,Tl)₂Bi₂S₅	Weissbergite	TlSbS₂
Karpovite	Tl₂VO(SO₄)₂(H₂O)	‘UM1993-27-Te:AuTl’	Au₃TlTe₂	Vaughanite	TlHgSb₄S₇
Lafossaite	Tl(Cl,Br)	‘UM1994-01-AsO:FeHSTl’	Fe₂TlAs₃O₁₂ · 4H₂O	Vorontsovite	(Hg₅Cu)_Σ6TlAs₄S₁₂
Lanmuchangite	Tl⁺Al(SO₄)₂ · 12H₂O	‘UM1997-41-S:CuFeKNiPbTl’	(K,Tl,Pb)₆(Fe,Cu,Ni)₂₅S₂₇	Vrbaite	Hg₃Tl₄As₈Sb₂S₂₀
Lorándite	TlAsS₂	‘UM1998-03-Cl:Tl’	TlCl	Wallisite	(Cu,Ag)TlPbAs₂S₅
Markhininite	TlBi(SO₄)₂	‘UM1999-20-S:AgAsPbSbTl’	(Tl,Ag)₂Pb₆(As,Sb)₁₆S₃₁	Weissbergite	TlSbS₂

From Wikipedia:
Chemists William Crookes and Claude-Auguste Lamy discovered thallium independently in 1861, in residues of sulfuric acid production. Both used the newly developed method of flame spectroscopy, in which thallium produces a notable green spectral line. Thallium, from Greek θαλλός, thallós, meaning “green shoot” or “twig”, was named by Crookes. It was isolated by both Lamy and Crookes in 1862; Lamy by electrolysis, and Crookes by precipitation and melting of the resultant powder. Crookes exhibited it as a powder precipitated by zinc at the international exhibition, which opened on 1 May that year. The odorless and tasteless thallium sulfate was once widely used as rat poison and ant killer. Since 1972 this use has been prohibited in the United States due to safety concerns. Many other countries followed this example. Thallium salts were used in the treatment of ringworm, other skin infections and to reduce the night sweating of tuberculosis patients. This use has been limited due to their narrow therapeutic index, and the development of improved medicines for these conditions.

According to wikipedia –

Optics

Thallium(I) bromide and thallium(I) iodide crystals have been used as infrared optical materials, because they are harder than other common infrared optics, and because they have transmission at significantly longer wavelengths. The trade name KRS-5 refers to this material.^[46] Thallium(I) oxide has been used to manufacture glasses that have a high index of refraction. Combined with sulfur or selenium and arsenic, thallium has been used in the production of high-density glasses that have low melting points in the range of 125 and 150 Celsius|°. These glasses have room-temperature properties that are similar to ordinary glasses and are durable, insoluble in water and have unique refractive indices.^[47]

Electronics

A corroded thallium rod

Thallium(I) sulfide’s electrical conductivity changes with exposure to infrared light, making this compound useful in photoresistors.^[43] Thallium selenide has been used in bolometers for infrared detection.^[48] Doping selenium semiconductors with thallium improves their performance, thus it is used in trace amounts in selenium rectifiers.^[43] Another application of thallium doping is the sodium iodide crystals in gamma radiation detection devices. In these, the sodium iodide crystals are doped with a small amount of thallium to improve their efficiency as scintillation generators.^[49] Some of the electrodes in dissolved oxygen analyzers contain thallium.^[6]

High-temperature superconductivity

Research activity with thallium is ongoing to develop high-temperature superconducting materials for such applications as magnetic resonance imaging, storage of magnetic energy, magnetic propulsion, and electric power generation and transmission. The research in applications started after the discovery of the first thallium barium calcium copper oxide superconductor in 1988.^[50] Thallium cuprate superconductors have been discovered that have transition temperatures above 120 K. Some mercury-doped thallium-cuprate superconductors have transition temperatures above 130 K at ambient pressure, nearly as high as the world-record-holding mercury cuprates.^[51]

Nuclear medicine

Before the widespread application of technetium-99m in nuclear medicine, the radioactive isotope thallium-201, with a half-life of 73 hours, was the main substance for nuclear cardiography. The nuclide is still used for stress tests for risk stratification in patients with coronary artery disease (CAD).^[52] This isotope of thallium can be generated using a transportable generator, which is similar to the technetium-99m generator.^[53] The generator contains lead-201 (half-life 9.33 hours), which decays by electron capture to thallium-201. The lead-201 can be produced in a cyclotron by the bombardment of thallium with protons or deuterons by the (p,3n) and (d,4n) reactions.^[54]^[55]

Thallium stress test

A thallium stress test is a form of scintigraphy in which the amount of thallium in tissues correlates with tissue blood supply. Viable cardiac cells have normal Na⁺/K⁺ ion-exchange pumps. The Tl⁺ cation binds the K⁺ pumps and is transported into the cells. Exercise or dipyridamole induces widening (vasodilation) of arteries in the body. This produces coronary steal by areas where arteries are maximally dilated. Areas of infarct or ischemic tissue will remain “cold”. Pre- and post-stress thallium may indicate areas that will benefit from myocardial revascularization. Redistribution indicates the existence of coronary steal and the presence of ischemic coronary artery disease.^[56]

Other uses

A mercury–thallium alloy, which forms a eutectic at 8.5% thallium, is reported to freeze at −60 °C, some 20 °C below the freezing point of mercury. This alloy is used in thermometers and low-temperature switches.^[43] In organic synthesis, thallium(III) salts, as thallium trinitrate or triacetate, are useful reagents for performing different transformations in aromatics, ketones and olefins, among others.^[57] Thallium is a constituent of the alloy in the anode plates of magnesium seawater batteries.^[6] Soluble thallium salts are added to gold plating baths to increase the speed of plating and to reduce grain size within the gold layer.^[58]

A saturated solution of equal parts of thallium(I) formate (Tl(CHO₂)) and thallium(I) malonate (Tl(C₃H₃O₄)) in water is known as Clerici solution. It is a mobile, odorless liquid which changes from yellowish to colorless upon reducing the concentration of the thallium salts. With a density of 4.25 g/cm³ at 20 °C, Clerici solution is one of the heaviest aqueous solutions known. It was used in the 20th century for measuring the density of minerals by the flotation method, but its use has discontinued due to the high toxicity and corrosiveness of the solution.^[59]^[60]

Thallium iodide is frequently used as an additive in metal-halide lamps, often together with one or two halides of other metals. It allows optimization of the lamp temperature and color rendering,^[61]^[62] and shifts the spectral output to the green region, which is useful for underwater lighting

From Wikipedia:

Thallium
Hazards
GHS labelling:
Pictograms
Signal word	Danger
Hazard statements	H300, H330, H373, H413
Precautionary statements	P260, P264, P284, P301, P310^[64]
NFPA 704 (fire diamond)

Thallium and its compounds are extremely toxic, with numerous recorded cases of fatal thallium poisoning.^[65]^[66] The Occupational Safety and Health Administration (OSHA) has set the legal limit (permissible exposure limit) for thallium exposure in the workplace as 0.1 mg/m² skin exposure over an eight-hour workday. The National Institute for Occupational Safety and Health (NIOSH) also set a recommended exposure limit (REL) of 0.1 mg/m² skin exposure over an eight-hour workday. At levels of 15 mg/m², thallium is immediately dangerous to life and health.^[67]

Contact with skin is dangerous, and adequate ventilation is necessary when melting this metal. Thallium(I) compounds have a high aqueous solubility and are readily absorbed through the skin, and care should be taken to avoid this route of exposure, as cutaneous absorption can exceed the absorbed dose received by inhalation at the permissible exposure limit (PEL).^[68] Exposure by inhalation cannot safely exceed 0.1 mg/m² in an eight-hour time-weighted average (40-hour work week).^[69] The Centers for Disease Control and Prevention (CDC) states, “Thallium is not classifiable as a carcinogen, and it is not suspected to be a carcinogen. It is unknown whether chronic or repeated exposure to thallium increases the risk of reproductive toxicity or developmental toxicity. Chronic high level exposure to thallium through inhalation has been reported to cause nervous system effects, such as numbness of fingers and toes.”^[70] For a long time thallium compounds were readily available as rat poison. This fact and that it is water-soluble and nearly tasteless led to frequent intoxication caused by accident or criminal intent.^[33]

One of the main methods of removing thallium (both radioactive and stable) from humans is to use Prussian blue, a material which absorbs thallium.^[71] Up to 20 grams per day of Prussian blue is fed by mouth to the patient, and it passes through their digestive system and comes out in their stool. Hemodialysis and hemoperfusion are also used to remove thallium from the blood serum. At later stages of the treatment, additional potassium is used to mobilize thallium from the tissues.^[72]^[73]

According to the United States Environmental Protection Agency (EPA), artificially-made sources of thallium pollution include gaseous emission of cement factories, coal-burning power plants, and metal sewers. The main source of elevated thallium concentrations in water is the leaching of thallium from ore processing operations.^[37]^[74]

Thallium has pretty much been found everywhere: