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• 1,2-Dichloroethane
  ...s the reaction of [[ethylene]] and [[chlorine]], in the presence of anh. [[iron(III) chloride]] catalyst: ...cal is also unstable when in the presence of [[aluminium]], [[zinc]] and [[iron]]<ref>http://en.wikipedia.org/wiki/1,2-Dichloroethane</ref>.
  6 KB (658 words) - 10:28, 27 December 2023
• Dioxane
  Dioxane is sometimes confused with dioxin, though the two compounds are very different. ...'s possible to neutralize the dissolved peroxides. Reducing agents, like [[Iron(II) sulfate|ferrous sulfate]], [[sodium bisulfite]] or [[sodium metabisulfi
  6 KB (732 words) - 16:20, 18 July 2019
• Acetic acid
  ...nly polar compounds such as inorganic salts and sugars, but also non-polar compounds such as oils and elements such as sulfur and iodine. It readily mixes with Acetic acid is mildly corrosive to metals including [[magnesium]], [[iron]] and [[zinc]], forming [[hydrogen]] gas and metal acetates.
  11 KB (1,554 words) - 14:43, 18 November 2023
• Acetone peroxide
  ...gents, such as acidified KI, [[iron(II) sulfate]], [[ammonium sulfate]]·[[iron(II) sulfate]] have shown to have little effect on peroxides. However, aceto [[Category:Chemical compounds]]
  10 KB (1,315 words) - 22:09, 14 July 2019
• Benzene
  ...ides in the presence of a Lewis acid, (anhydrous [[aluminium chloride]], [[iron(III) chloride]]), process known as [[Friedel–Crafts reaction]]. [[Category:Chemical compounds]]
  9 KB (1,157 words) - 18:53, 13 February 2023
• Bis(ethylenediamine)copper(II) perchlorate
  ...in a safe place. It can also be neutralized by reducing it with metallic [[iron]] under UV light, in anaerobic conditions. [[Category:Chemical compounds]]
  4 KB (482 words) - 10:01, 19 November 2017
• Aluminium chloride
  ...s as grainy, oily beads which are often yellow due to even the smallest of iron impurities. *Organoaluminium compounds
  6 KB (716 words) - 18:37, 7 February 2024
• Calcium chloride
  ...s this process is time-consuming, costly, and fails to remove magnesium or iron impurities. [[Category:Chemical compounds]]
  8 KB (1,076 words) - 21:01, 22 March 2021
• Calcium perchlorate
  Calcium perchlorate can be destroyed with metallic [[iron]] under UV light, in the absence of air.<ref>[https://books.google.ro/books [[Category:Chemical compounds]]
  5 KB (608 words) - 11:11, 2 November 2019
• Carbon
  ...n easily form four single bonds, it is capable of forming a vast number of compounds, namely all [[organic compound]]s. :2 [[Iron(III) oxide|Fe₂O₃]] + 3 C → 4 [[Iron|Fe]] + 3 CO₂
  14 KB (1,993 words) - 22:25, 26 August 2023
• Carbon disulfide
  ...etween 120-220 °C, in the presence of a catalyst such as copper chloride, iron chloride, [[aluminium chloride]].<ref>Fomin, W. A., Zhurnal Obshchei Khimii ...f carbon monoxide with sulfur, in the presence of a catalyst such as iron, iron(III) sulfide, at temperatures between 400 - 500 °C.<ref>DE398322 C</ref> T
  10 KB (1,388 words) - 21:40, 16 October 2022
• Arsenic
  Arsenic has three important oxidation states, -3, +3 and +5. Notable compounds are arsine (AsH₃), arsenic trichloride (AsCl₃, "butte Most arsenic compounds, as well as the element itself, are prone to sublimation at low temperature
  11 KB (1,599 words) - 15:37, 20 September 2018
• Chromium(III) sulfate
  ...''. It is a temperature-sensitive blue-grey solid and one of the principal compounds of [[chromium]]. ...is accompanied with the release of carbon dioxide, in a manner similar to iron, which does not form carbonates.
  6 KB (795 words) - 16:52, 6 November 2018
• Cleaning glassware
  ===Rust and iron deposits=== For deposits of [[Iron(III) oxide|rust]], [[iron]], [[carbonate]]s, and [[oxide]]s which are hard to remove, prepare a solut
  11 KB (1,909 words) - 21:41, 2 December 2018
• Copper(I) chloride
  ...hich can be reduced to metallic copper with a more reactive metal, such as iron or zinc. [[Category:Chemical compounds]]
  5 KB (641 words) - 08:17, 23 September 2023
• Copper(II) chloride
  ...h with another more reactive metal, such as [[iron]] or [[zinc]] to form [[iron(II) chloride]] or [[zinc chloride]] which are less toxic, before being disp [[Category:Chemical compounds]]
  7 KB (962 words) - 11:44, 25 June 2023
• Diethyl ether
  ...l ether to dryness due to the trace amounts of peroxides formed over time. Iron, copper, ferrous salts, and sulfites are known to inhibit the formation of ...'s possible to neutralize the dissolved peroxides. Reducing agents, like [[Iron(II) sulfate|ferrous sulfate]], [[sodium bisulfite]] or [[sodium metabisulfi
  11 KB (1,632 words) - 13:38, 26 August 2023
• Diisopropyl ether
  ...'s possible to neutralize the dissolved peroxides. Reducing agents, like [[Iron(II) sulfate|ferrous sulfate]], [[sodium bisulfite]] or [[sodium metabisulfi [[Category:Chemical compounds]]
  6 KB (711 words) - 20:05, 9 November 2018
• Electronic recycling
  ...antalum]], [[nickel]], [[cadmium]], [[tungsten]] and other metals or their compounds. Other useful elements that can be obtained are [[silicon]], [[neodymium]], ===Compounds===
  8 KB (1,319 words) - 21:09, 20 March 2023
• Fenton's reagent
  ...[[iron(III) chloride|chloride]], very useful to destroy hazardous organic compounds, such as [[acetonitrile]], [[benzene]], [[chloroform]], [[tetrachloroethane Some chemists think Fenton's reagent contains iron(IV).<ref>http://tchie.uni.opole.pl/freeECE/S_16_3/Barbusinski_16%283%29.pdf
  3 KB (416 words) - 16:45, 4 September 2019