Compounds of carbon

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There is an immense number of distinct compounds that contain carbon atoms. Some sources suggest that this number is close to almost ten million known.^[1] However, it is possible that the number is greater.

Contents 1 Organic compounds 2 Inorganic compounds 2.1 Compounds with other nonmetals 2.2 Compounds with metals 2.2.1 Carbonates and bicarbonates 2.2.2 Carbonyls 2.2.3 Compounds contanining the CN group 2.2.4 Carbides 2.2.5 Other 3 Alloys 4 Formation of carbon compounds 5 References 6 See also

[edit] Organic compounds

Main article: Organic compound

Every organic compound contains at least one atom of carbon. The number of these compounds is immense and the described number of defined compounds is close to 10 million. However, an indefinitely larger number of such compounds are theoretically possible.

There are several organic compounds sometimes considered as inorganic: NH₂COONH₄, COCl₂, CSCl₂, CS(NH₂)₂, CO(NH₂)₂

[edit] Inorganic compounds

See also: Inorganic compounds by element#Carbon

There is a rich variety of carbon chemistry that does not fall within the realm of organic chemistry and is thus called inorganic carbon chemistry.

[edit] Compounds with other nonmetals

Perhaps the best known are the oxides of carbon, carbon dioxide (CO₂) and carbon monoxide (CO). Other known oxides are the uncommon carbon suboxide, C₃O₂, the uncommon dicarbon monoxide, C₂O and even the exotic carbon trioxide (CO₃).

Other (binary) compounds of carbon with nonmetals include: CS₂, β-C₃N₄, CBr₄, CCl₄, CF₄, COF₂, COS, H₂C₂B₁₀H₁₀,

[edit] Compounds with metals

[edit] Carbonates and bicarbonates

Main articles: Carbonic acid, Carbonate, and Bicarbonate

The only known acid that is derived from the oxides of carbon is the carbonic acid (H₂CO₃). Upon monodeprotonation of this acid, bicarbonates are formed, which can be further derpotonated to carbonates.

Here is a list of carbonates and bicarbonates: NH₄HCO₃, (NH₄)₂CO₃, BaCO₃, CdCO₃, Cs₂CO₃, Ca(HCO₃)₃, CaCO₃, Ce₂(CO₃)₃, CoCO₃, CuCO₃, FeCO₃, PbCO₃, La₂(CO₃)₃, Li₂CO₃, MgCO₃, MnCO₃, NiCO₃, KHCO₃, K₂CO₃, Ag₂CO₃, NaHCO₃, Na₂CO₃, SrCO₃, ZnCO₃

[edit] Carbonyls

Main article: Carbonyl

Carbonyls are coordination complexes between transition metals and carbonyl ligands. Metal carbonyls are complexes that are formed with the neutral ligand CO. These complexes are covalent. Here is a list of some carbonyls: Cr(CO)₆, Co₂(CO)₈, Fe(CO)₅, Mn₂(CO)₁₀, Mo(CO)₆, Ni(CO)₄, W(CO)₆,

[edit] Compounds contanining the CN group

Main articles: Cyanide, Cyanates, Thiocyanate, and Isocyanate

Other types of inorganic compounds include inorganic salts and complexes of the carbon-containing polyatomic ions cyanide, isocyanide, cyanate, thiocyanate.

NH₄SCN, CaNCN, Co(SCN)₂, CuCN, (HCNO)_x NH₂CN HCNO, (CN)₂, BrCN, ClCN, HCN, KOCN, KCN, K₃Fe(CN)₆, K₄Fe(CN)₆, KSCN, Fe₄(Fe(CN)₆)₃, AgCN, NaOCN, NaCN, Na₃Fe(CN)₅NO, NaSCN, (SCN)₂,

[edit] Carbides

Main article: Carbide

Carbides are binary compounds of carbon with an element that is less electronegative than it. B₄C, CaC₂ SiC, TaC, TiC, WC,

[edit] Other

The known inorganic chemistry of the allotropes of carbon (diamond, graphite, and the fullerenes) blossomed with the discovery of buckminsterfullerene in 1985, as additional fullerenes and their various derivatives were discovered. One such class of derivatives is inclusion compounds, in which an ion is enclosed by the all-carbon shell of the fullerene. This inclusion is denoted by the "@" symbol. For example, an ion consisting of a lithium ion trapped within buckminsterfullerene would be denoted Li⁺@C₆₀. As with any other ionic compound, this complex ion could in principle pair with a counterion to form a salt.

[edit] Alloys

There are several alloys that contain carbon of which the best known alloy is carbon steel (see category:steels)). Besides steel, other alloys based on iron and carbon are: anthracite iron, cast iron, pig iron, wrought iron, but also spiegeleisen (which contains also manganese). Stellite is an alloy of carbon with cobalt, chromium and tungsten. To some degree, these alloys could be considered carbides.

[edit] Formation of carbon compounds

In organic chemistry there are 3 important elements: Carbon, Oxygen and Hydrogen. Each of these elements have different kinds of bonds. Carbon atom has tetravalent bonds, Oxygen atoms divalent bonds and Hydrogen monovalent bonds.

[edit] References

1. ^ Chemistry Operations (December 15, 2003). Carbon. Los Alamos National Laboratory. Retrieved on 2007-11-21.

Organic Chemistry by Abraham William Simpson

[edit] See also

• Allotropes of carbon
• Carbon
• Graphite intercalation compound
• Fullerene chemistry

CH

He

CLi

CBe

CB

CC

CN

CO

CF

Ne

CNa

CMg

CAl

CSi

CP

CS

CCl

Ar

CK

CCa

CSc

CTi

CV

CCr

CMn

CFe

CCo

CNi

CCu

CZn

CGa

CGe

CAs

CSe

CBr

Kr

CRb

CSr

CY

CZr

CNb

CMo

CTc

CRu

CRh

CPd

CAg

CCd

CIn

CSn

CSb

CTe

CI

Xe

CCs

CBa

CHf

CTa

CW

CRe

COs

CIr

CPt

CAu

CHg

CTl

CPb

CBi

CPo

CAt

Rn

Fr

Ra

Rf

Db

Sg

Bh

Hs

Mt

Ds

Rg

Uub

Uut

Uuq

Uup

Uuh

Uus

Uuo

↓

La

CCe

Pr

Nd

Pm

Sm

Eu

Gd

Tb

Dy

Ho

Er

Tm

Yb

Lu

Ac

Th

Pa

CU

Np

Pu

Am

Cm

Bk

Cf

Es

Fm

Md

No

Lr

Chemical bonds to carbon

Core organic chemistry	many uses in chemistry.
Academic research, but no widespread use	Bond unknown / not assessed.

v • d • e Inorganic compounds of carbon Common oxides: CO2 ♦ CO -- Exotic oxides: C3O2 ♦ C2O ♦ CO3 Compounds derived from oxides: Metal carbonyls ♦ Carbonic acid ♦ Bicarbonates ♦ Carbonates Ionic compounds: Cyanides ♦ Isocyanides ♦ Cyanates ♦ Thiocyanates ♦ Isothiocyanates ♦ Carbides