Wikipedia

Sodium ethyl xanthate

Sodium ethyl xanthate (SEX)[3] is an organosulfur compound with the chemical formula CH3CH2OCS2Na. It is a pale yellow powder, which is usually obtained as the dihydrate. Sodium ethyl xanthate is used in the mining industry as a flotation agent.[4] A closely related potassium ethyl xanthate (KEX) is obtained as the anhydrous salt.

Sodium ethyl xanthate
Ball-and-stick model of the component ions of sodium ethyl xanthate
Names
IUPAC name
sodium O-ethylcarbonodithioate
Other names
Sodium ethylxanthogenate
Sodium-O-ethyl dithiocarbonate
SEX
Identifiers
3D model (JSmol)
Abbreviations SEX
ChemSpider
ECHA InfoCard 100.004.947 Edit this at Wikidata
EC Number
  • 205-440-9
UNII
  • InChI=1S/C3H6OS2.Na/c1-2-4-3(5)6;/h2H2,1H3,(H,5,6);/q;+1/p-1
    Key: RZFBEFUNINJXRQ-UHFFFAOYSA-M
  • CCOC(=S)[S-].[Na+]
Properties
C3H5NaOS2
Molar mass 144.18 g·mol−1
Appearance Pale yellow powder[1]
Density 1.263 g/cm3[1]
Melting point 182 to 256 °C (360 to 493 °F; 455 to 529 K)[1]
Boiling point decomposes
450 g/L (10 °C)[1]
Acidity (pKa) 1.6[1]
Basicity (pKb) 12.4[1]
Hazards
GHS labelling:
GHS02: FlammableGHS05: CorrosiveGHS06: ToxicGHS07: Exclamation mark
Danger
H228, H302, H311, H314, H315, H319, H332, H335
P210, P240, P241, P260, P261, P264, P270, P271, P280, P301+P312, P301+P330+P331, P302+P352, P303+P361+P353, P304+P312, P304+P340, P305+P351+P338, P310, P312, P321, P322, P330, P332+P313, P337+P313, P361, P362, P363, P370+P378, P403+P233, P405, P501
250 °C (482 °F; 523 K)[2]
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Production edit

Akin to the preparation of most xanthates, sodium ethyl xanthate can be prepared by treating sodium ethoxide with carbon disulfide:[5]
     CH3CH2ONa + CS2 → CH3CH2OCS2Na

Properties and reactions edit

Sodium ethyl xanthate is a pale yellow powder. Its aqueous solutions are stable at high pH if not heated. It rapidly hydrolyses at pH less than 9 at 25 °C. It is the conjugate base of the ethyl xanthic acid, a strong acid with pKa of 1.6 and pKb estimated as 12.4 for the conjugate base.[6] Sodium ethyl xanthate easily adsorbs on the surface of many sulfide minerals,[2] a key step in froth flotation.

Xanthates are susceptible to hydrolysis and oxidation[7] at low pH:

C2H5OCS2Na + H+ → C2H5OH + CS2 + Na+

Oxidation gives diethyl dixanthogen disulfide:

4C2H5OCS2Na + 2H2O + O2 → 2(C2H5OCS2)2 + 4 NaOH

Detection edit

Sodium ethyl xanthate can be identified through optical absorption peaks in the infrared (1179, 1160, 1115, 1085 cm−1) and ultraviolet (300 nm) ranges. There are at least six chemical detection methods:

  1. Iodometric method relies on oxidation to dixanthogen by iodine, with the product detected with a starch indicator. This method is however is not selective and suffers from interferences with other sulfur-containing chemicals.[8]
  2. Xanthate can be reacted with a copper sulfate or copper tartrate resulting in a copper xanthate residue which is detected with iodine. This method has an advantage of being is insensitive to sulfite, thiosulfate and carbonate impurities.[9]
  3. In the acid-base detection method, a dilute aqueous xanthate solution is reacted with a copious amount of 0.01 M hydrochloric acid yielding carbon disulfide and alcohol, which are evaluated. The excess acid and impurities are removed through filtering and titration.[9]
  4. In the argentometric method, sodium ethyl xanthate is reacted with silver nitrate in a dilute solution. The resulted silver xanthate is detected with 10% aqueous solution of iron nitrate. The drawbacks of this method are high cost of silver and blackening of silver xanthate by silver nitrate that reduces the detection accuracy.[9]
  5. In the mercurimetric method, xanthate is dissolved in 40% aqueous solution of dimethylamine, followed by heating and titration with o-hydroxymercuribenzoate. The product is detected with dithiofluorescein.[9]
  6. Perchloric acid method involves dissolution of xanthate in water-free acetic acid. The product is titrated with perchloric acid and detected with crystal violet.[9]

Sodium ethyl xanthate can also be quantified using gravimetry, by weighing the lead xanthate residue obtained after reacting SEX with 10% solution of lead nitrate. There are also several electrochemical detection methods, which can be combined with some of the above chemical techniques.[9]

Applications edit

Sodium ethyl xanthate is used in the mining industry as flotation agent for recovery of metals, such as copper, nickel, silver or gold, as well as solid metal sulfides or oxides from ore slurries. This application was introduced by Cornelius H. Keller in 1925. Other applications include defoliant, herbicide, and an additive to rubber to protect it against oxygen and ozone.[10]

In 2000, Australia produced up to 10,000 tonnes of sodium ethyl xanthate and imported about 6,000 tonnes, mostly from China.[11] The material produced in Australia is the so-called 'liquid sodium ethyl xanthate' that refers to a 40% aqueous solution of the solid.[12] It is obtained by treating carbon disulfide with sodium hydroxide and ethanol.[13] Its density is 1.2 g/cm3 and the freezing point is −6 °C.[14]

Safety edit

Sodium ethyl xanthate has moderate oral and dermal toxicity in animals and is irritating to eyes and skin.[13] It is especially toxic to aquatic life and therefore its disposal is strictly controlled.[15] Median lethal dose for (male albino mice, oral, 10% solution at pH~11) is 730 mg/kg of body weight, with most deaths occurring in the first day. The most affected organs were the central nervous system, liver and spleen.[16]

Since 1993, sodium ethyl xanthate is classified as a Priority Existing Chemical in Australia, meaning that its manufacture, handling, storage, use or disposal may result in adverse health or environment effects. This decision was justified by the widespread use of the chemical in industry and its decomposition to the toxic and flammable carbon disulfide gas. From two examples of sodium ethyl xanthate spillage in Australia, one resulted in evacuation of 100 people and hospitalization of 6 workers who were exposed to the fumes. In another accident, residents of the spillage area complained of headache, dizziness, and nausea.[17] Consequently, during high-risk sodium ethyl xanthate handling operations, workers are required by the Australian regulations to be equipped with protective clothing, anti-static gloves, boots and full-face respirators or self-contained breathing apparatus.[18]

References edit

  1. ^ a b c d e f Report 5 (1995) p. 5
  2. ^ a b Report 5 (1995) p. 6
  3. ^ Caroline Cooper (23 July 2010). Organic Chemist's Desk Reference. CRC Press. pp. 123 (Acronyms and Miscellaneous Terms used in Describing Organic Molecules). ISBN 978-1-4398-1164-1. Retrieved 22 February 2011.
  4. ^ Kathrin-Maria Roy (2005). "Xanthates". Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH. doi:10.1002/14356007.a28_423. ISBN 3527306730.
  5. ^ Ingram, G.; Toms, B. A. (1961). "The reactions of sodium ethyl xanthate with ethanol and with water". Journal of the Chemical Society (Resumed): 117–127. doi:10.1039/JR9610000117.
  6. ^ Millican, Robert J.; Sauers, Carol K. (1979). "General acid-catalyzed decomposition of alkyl xanthates". The Journal of Organic Chemistry. 44 (10): 1664–1669. doi:10.1021/jo01324a018.
  7. ^ Report 5 (1995) pp. 14–16
  8. ^ Report 5 (1995) p. 8
  9. ^ a b c d e f Report 5 (1995) p. 9
  10. ^ Report 5 (1995), p. 2, citing Rao, R.S., “Xanthates and Related Compounds”, Marcel Dekker, New York, 1971 ISBN 0-8247-1563-2 and Keller, C.H. (1925) U.S. patent 1,554,216 "Concentration of gold, sulphide minerals and uranium oxide minerals by flotation from ores and metallurgical plant products"
  11. ^ Report 5s (2000) p. 1
  12. ^ Report 5s (2000) p. 3
  13. ^ a b Report 5s (2000) p. v
  14. ^ Report 5s (2000) p. 7
  15. ^ Report 5 (1995) pp. 43–45
  16. ^ Report 5 (1995) p. 17
  17. ^ Report 5 (1995) p. 1
  18. ^ Report 5s (2000) p. vi

Bibliography edit

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