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When dry, copper acetylide is a heat and shock sensitive [[high explosive]], more sensitive than [[silver acetylide]]{{Citation needed|date=March 2011}}.
When dry, copper acetylide is a heat and shock sensitive [[high explosive]], more sensitive than [[silver acetylide]]{{Citation needed|date=March 2011}}.


Copper acetylide can form inside pipes made of [[copper]] or an alloy with high copper content, which may result in violent explosion.<ref>{{cite web|url = http://www.msha.gov/Accident_Prevention/Tips/acetylenegas.htm |title = Mine Safety and Health Administration (MSHA) - Accident Prevention Program - Miner's Tips - Hazards of Acetylene Gas |accessdate = 2008-06-08}}</ref> This was found to be the cause of explosions in acetylene plants, and led to abandonment of copper as a construction material in such plants.<ref>[http://www.ilo.org/encyclopedia/?print&nd=857200158]{{dead link|date= June 2008}}</ref> Copper [[catalyst]]s used in [[petrochemistry]] can also possess a degree of risk under certain conditions.<ref>{{cite web|url = http://aiche.confex.com/aiche/s06/preliminaryprogram/abstract_43768.htm |title = The Safe Use of Copper -Containing Catalysts in Ethylene Plants |accessdate = 2008-06-08}}</ref>
Copper acetylide can form inside pipes made of [[copper]] or an alloy with high copper content, which may result in violent explosion.<ref>{{cite web|url = http://www.msha.gov/Accident_Prevention/Tips/acetylenegas.htm |title = Mine Safety and Health Administration (MSHA) - Accident Prevention Program - Miner's Tips - Hazards of Acetylene Gas |accessdate = 2008-06-08}}</ref> This was found to be the cause of explosions in acetylene plants, and led to abandonment of copper as a construction material in such plants.<ref>{{cite web|url=http://www.ilo.org/encyclopedia/?print&nd=857200158 |accessdate=February 8, 2013 |deadurl=yes |archiveurl=https://web.archive.org/20071001010729/http://www.ilo.org/encyclopedia/?print&nd=857200158 |archivedate=October 1, 2007 }}</ref> Copper [[catalyst]]s used in [[petrochemistry]] can also possess a degree of risk under certain conditions.<ref>{{cite web|url = http://aiche.confex.com/aiche/s06/preliminaryprogram/abstract_43768.htm |title = The Safe Use of Copper -Containing Catalysts in Ethylene Plants |accessdate = 2008-06-08}}</ref>


== Reactions ==
== Reactions ==

Revision as of 14:24, 20 February 2016

Copper(I) acetylide
Names
IUPAC name
Dicuprous acetylide
Identifiers
3D model (JSmol)
ChemSpider
  • InChI=1S/C2.2Cu/c1-2;;/q-2;2*+1
    Key: SQDLRJMJSRRYGA-UHFFFAOYSA-N
  • InChI=1/C2.2Cu/c1-2;;/q-2;2*+1
    Key: SQDLRJMJSRRYGA-UHFFFAOYAK
  • [C-]#[C-].[Cu+].[Cu+]
Properties
C2Cu2
Molar mass 151.114 g·mol−1
Hazards
Occupational safety and health (OHS/OSH):
Main hazards
 Template:Hazchem E Template:Hazchem Xn
NIOSH (US health exposure limits):
PEL (Permissible)
 TWA 1 mg/m3 (as Cu)[1]
REL (Recommended)
 TWA 1 mg/m3 (as Cu)[1]
IDLH (Immediate danger)
 TWA 100 mg/m3 (as Cu)[1]
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
checkY verify (what is checkY☒N ?)

Copper(I) acetylide, or cuprous acetylide, is a chemical compound with the formula Cu2C2, known at least since 1856.[2] In the common form (a monohydrate with formula Cu
2C
2.H
2O) it is a reddish solid, that easily explodes when dry.

Structure

Copper acetylide is a metal acetylide, a salt of the acetylide anion C2−
2 and the copper(I) cation Cu+
. It is similar to silver acetylide and calcium carbide, though it is not called carbide in literature.

Synthesis

Copper acetylide can be prepared by passing acetylene gas through copper(I) chloride solution in the presence of ammonia:

C2H2 + 2CuCl → Cu2C2 + 2HCl

The acetylide then separates as a reddish precipitate.

Properties

When dry, copper acetylide is a heat and shock sensitive high explosive, more sensitive than silver acetylide[citation needed].

Copper acetylide can form inside pipes made of copper or an alloy with high copper content, which may result in violent explosion.[3] This was found to be the cause of explosions in acetylene plants, and led to abandonment of copper as a construction material in such plants.[4] Copper catalysts used in petrochemistry can also possess a degree of risk under certain conditions.[5]

Reactions

Copper acetylide is the substrate of Glaser coupling for the formation of polyynes. In a typical reaction, air is bubbled through a suspension of Cu
2C
2.H
2O in an amoniacal solution. The copper is oxidized to Cu2+
 and forms a blue soluble complex with the ammonium species, leaving behind a black solid residue. The latter has been claimed to consist of carbyne, an elusive allotrope of carbon;[6] more precisely of "polyacetylyde" anions capped with residual copper(I) ions,

Cu+
 C(≡C−C≡)nC Cu+

However that interpretation has been disputed.[7]

Freshly prepared copper acetylide reacts with hydrochloric acid to form acetylene and copper(I) chloride. Samples that have been aged with exposure to air or to copper(II) ions liberate also higher polyynes H(−C≡C−)nH, with n from 2 to 6, when decomposed by hydrochloric acid. A "carbonaceous" residue of this decomposition also has the spectral signature of (−C≡C−)n chains. It has been conjectured that oxidation causes polymerization of the acetylide anions C2−
2 in the solid into carbyne-type anions .C(≡C−C≡)nC2− or polycumulene-type anions C(=C=C=)mC4−.[2]

Thermal decomposition of copper acetylide in vacuum is not explosive and leaves copper as a fine powder at the bottom of the flask, while depositing a fluffy very fine carbon powder on the walls. On the basis of spectral data, this powder was claimed to be carbyne C(−C≡C−)nC rather than graphite as expected.[2]

Applications

Though not practically useful as an explosive due to high sensitivity and reactivity towards water[citation needed], it is interesting as a curiosity because it is one of the very few explosives that do not liberate any gaseous products upon detonation.

The formation of copper acetylide when a gas is passed through a solution of copper(I) chloride is used as a test for the presence of acetylene.

The reaction of Cu+ with alkyne occurs only if terminal hydrogen is present (as it is slight acidic in nature). Thus this reaction is used for identifification of terminal alkynes.

See also

References

  1. ^ a b c NIOSH Pocket Guide to Chemical Hazards. "#0150". National Institute for Occupational Safety and Health (NIOSH).
  2. ^ a b c Franco Cataldo (1999), From dicopper acetylide to carbyne.Polymer International, volume 48, issue 1, pages 15-22. doi:10.1002/(SICI)1097-0126(199901)48:1
  3. ^ "Mine Safety and Health Administration (MSHA) - Accident Prevention Program - Miner's Tips - Hazards of Acetylene Gas". Retrieved 2008-06-08.
  4. ^ https://web.archive.org/20071001010729/http://www.ilo.org/encyclopedia/?print&nd=857200158. Archived from the original on October 1, 2007. Retrieved February 8, 2013. {{cite web}}: Missing or empty |title= (help); Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  5. ^ "The Safe Use of Copper -Containing Catalysts in Ethylene Plants". Retrieved 2008-06-08.
  6. ^ Franco Cataldo (1999), ' 'A study on the structure and electrical properties of the fourth carbon allotrope: carbyne. Polymer International, volume 44, issue 2, pages 191–200. doi:10.1002/(SICI)1097-0126(199710)44:2
  7. ^ H. Kroto (2010), Carbyne and other myths about carbon. RSC Chemistry World, November 2010.
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