Functional group
In organic chemistry, functional groups are specific substituents or moieties within molecules that are responsible for the characteristic chemical reactions of those molecules. The same functional group will undergo the same or similar chemical reaction(s) regardless of the size of the molecule it is a part of.[1][2] This allows for systematic prediction of chemical reactions and behavior of chemical compounds and design of chemical syntheses. Furthermore, the reactivity of a functional group can be modified by other functional groups nearby. In organic synthesis, functional group interconversion is one of the basic types of transformations.
Functional groups are groups of one or more atoms of distinctive chemical properties no matter what they are attached to. The atoms of functional groups are linked to each other and to the rest of the molecule by covalent bonds. For repeating units of polymers, functional groups attach to their nonpolar core of carbon atoms and thus add chemical character to carbon chains. Functional groups can also be charged, e.g. in carboxylate salts (–COO−), which turns the molecule into a polyatomic ion or a complex ion. Functional groups binding to a central atom in a coordination complex are called ligands. Complexation and solvation are also caused by specific interactions of functional groups. In the common rule of thumb "like dissolves like", it is the shared or mutually well-interacting functional groups which give rise to solubility. For example, sugar dissolves in water because both share the hydroxyl functional group (–OH) and hydroxyls interact strongly with each other. Plus, when functional groups are more electronegative than atoms they attach to, the functional groups will become polar, and the otherwise nonpolar molecules containing these functional groups become polar and so become soluble in some aqueous environment.
Combining the names of functional groups with the names of the parent alkanes generates what is termed a systematic nomenclature for naming organic compounds. In traditional nomenclature, the first carbon atom after the carbon that attaches to the functional group is called the alpha carbon; the second, beta carbon, the third, gamma carbon, etc. If there is another functional group at a carbon, it may be named with the Greek letter, e.g., the gamma-amine in gamma-aminobutyric acid is on the third carbon of the carbon chain attached to the carboxylic acid group. IUPAC conventions call for numeric labeling of the position, e.g. 4-aminobutanoic acid. In traditional names various qualifiers are used to label isomers, for example, isopropanol (IUPAC name: propan-2-ol) is an isomer of n-propanol (propan-1-ol).
Contents
1 Table of common functional groups
1.1 Hydrocarbons
1.2 Groups containing halogen
1.3 Groups containing oxygen
1.4 Groups containing nitrogen
1.5 Groups containing sulfur
1.6 Groups containing phosphorus
1.7 Groups containing boron
1.8 Names of radicals or moieties
2 See also
3 References
4 External links
Table of common functional groups
The following is a list of common functional groups.[3] In the formulas, the symbols R and R' usually denote an attached hydrogen, or a hydrocarbon side chain of any length, but may sometimes refer to any group of atoms.
Hydrocarbons
Functional groups, called hydrocarbyl, that contain only carbon and hydrogen, but vary in the number and order of double bonds. Each one differs in type (and scope) of reactivity.
Chemical class | Group | Formula | Structural Formulae | Prefix | Suffix | Example |
---|---|---|---|---|---|---|
Alkane | Alkyl | R(CH2)nH | alkyl- | -ane | Ethane | |
Alkene | Alkenyl | R2C=CR2 | alkenyl- | -ene | Ethylene (Ethene) | |
Alkyne | Alkynyl | RC≡CR' | R−C≡C−R′displaystyle ce R-C#C-R' | alkynyl- | -yne | H−C≡C−Hdisplaystyle ce H-C#C-H Acetylene (Ethyne) |
Benzene derivative | Phenyl | RC6H5 RPh | phenyl- | -benzene | Cumene (Isopropylbenzene) |
There are also a large number of branched or ring alkanes that have specific names, e.g., tert-butyl, bornyl, cyclohexyl, etc. Hydrocarbons may form charged structures: positively charged carbocations or negative carbanions. Carbocations are often named -um. Examples are tropylium and triphenylmethyl cations and the cyclopentadienyl anion.
Groups containing halogen
Haloalkanes are a class of molecule that is defined by a carbon–halogen bond. This bond can be relatively weak (in the case of an iodoalkane) or quite stable (as in the case of a fluoroalkane). In general, with the exception of fluorinated compounds, haloalkanes readily undergo nucleophilic substitution reactions or elimination reactions. The substitution on the carbon, the acidity of an adjacent proton, the solvent conditions, etc. all can influence the outcome of the reactivity.
Chemical class | Group | Formula | Structural Formula | Prefix | Suffix | Example |
---|---|---|---|---|---|---|
haloalkane | halo | RX | R−Xdisplaystyle ce R-X | halo- | alkyl halide | Chloroethane (Ethyl chloride) |
fluoroalkane | fluoro | RF | R−Fdisplaystyle ce R-F | fluoro- | alkyl fluoride | Fluoromethane (Methyl fluoride) |
chloroalkane | chloro | RCl | R−Cldisplaystyle ce R-Cl | chloro- | alkyl chloride | Chloromethane (Methyl chloride) |
bromoalkane | bromo | RBr | R−Brdisplaystyle ce R-Br | bromo- | alkyl bromide | Bromomethane (Methyl bromide) |
iodoalkane | iodo | RI | R−Idisplaystyle ce R-I | iodo- | alkyl iodide | Iodomethane (Methyl iodide) |
Groups containing oxygen
Compounds that contain C-O bonds each possess differing reactivity based upon the location and hybridization of the C-O bond, owing to the electron-withdrawing effect of sp-hybridized oxygen (carbonyl groups) and the donating effects of sp2-hybridized oxygen (alcohol groups).
Chemical class | Group | Formula | Structural Formula | Prefix | Suffix | Example |
---|---|---|---|---|---|---|
Alcohol | Hydroxyl | ROH | hydroxy- | -ol | Methanol | |
Ketone | Carbonyl | RCOR' | -oyl- (-COR') or oxo- (=O) | -one | Butanone (Methyl ethyl ketone) | |
Aldehyde | Aldehyde | RCHO | formyl- (-COH) or oxo- (=O) | -al | Acetaldehyde (Ethanal) | |
Acyl halide | Haloformyl | RCOX | carbonofluoridoyl- carbonochloridoyl- carbonobromidoyl- carbonoiodidoyl- | -oyl halide | Acetyl chloride (Ethanoyl chloride) | |
Carbonate | Carbonate ester | ROCOOR' | (alkoxycarbonyl)oxy- | alkyl carbonate | Triphosgene (bis(trichloromethyl) carbonate) | |
Carboxylate | Carboxylate | RCOO− | carboxy- | -oate | Sodium acetate (Sodium ethanoate) | |
Carboxylic acid | Carboxyl | RCOOH | carboxy- | -oic acid | Acetic acid (Ethanoic acid) | |
Ester | Ester | RCOOR' | alkanoyloxy- or alkoxycarbonyl | alkyl alkanoate | Ethyl butyrate (Ethyl butanoate) | |
Methoxy | Methoxy | ROCH3 | methoxy- | Anisole (Methoxybenzene) | ||
Hydroperoxide | Hydroperoxy | ROOH | hydroperoxy- | alkyl hydroperoxide | tert-Butyl hydroperoxide | |
Peroxide | Peroxy | ROOR' | peroxy- | alkyl peroxide | Di-tert-butyl peroxide | |
Ether | Ether | ROR' | alkoxy- | alkyl ether | Diethyl ether (Ethoxyethane) | |
Hemiacetal | Hemiacetal | RCH(OR')(OH) | alkoxy -ol | -al alkyl hemiacetal | ||
Hemiketal | Hemiketal | RC(ORʺ)(OH)R' | alkoxy -ol | -one alkyl hemiketal | ||
Acetal | Acetal | RCH(OR')(OR") | dialkoxy- | -al dialkyl acetal | ||
Ketal (or Acetal) | Ketal (or Acetal) | RC(ORʺ)(OR‴)R' | dialkoxy- | -one dialkyl ketal | ||
Orthoester | Orthoester | RC(OR')(ORʺ)(OR‴) | trialkoxy- | |||
Heterocycle | Methylenedioxy | PhOCOPh | methylenedioxy- | -dioxole | 1,2-Methylenedioxybenzene (1,3-Benzodioxole) | |
Orthocarbonate ester | Orthocarbonate ester | C(OR)(OR')(ORʺ)(OR″) | tetralkoxy- | tetraalkyl orthocarbonate | Tetramethoxymethane | |
Organic acid anhydride | Carboxylic anhydride | R(CO)O(CO)R' | anhydride | Butyric anhydride |
Groups containing nitrogen
Compounds that contain nitrogen in this category may contain C-O bonds, such as in the case of amides.
Chemical class | Group | Formula | Structural Formula | Prefix | Suffix | Example |
---|---|---|---|---|---|---|
Amide | Carboxamide | RCONR2 | carboxamido- or carbamoyl- | -amide | Acetamide (Ethanamide) | |
Amines | Primary amine | RNH2 | amino- | -amine | Methylamine (Methanamine) | |
Secondary amine | R2NH | amino- | -amine | Dimethylamine | ||
Tertiary amine | R3N | amino- | -amine | Trimethylamine | ||
4° ammonium ion | R4N+ | ammonio- | -ammonium | Choline | ||
Imine | Primary ketimine | RC(=NH)R' | imino- | -imine | ||
Secondary ketimine | RC(=NR″)R′displaystyle ce RC(=NR'')R' | imino- | -imine | |||
Primary aldimine | RC(=NH)H | imino- | -imine | Ethanimine | ||
Secondary aldimine | RC(=NR')H | imino- | -imine | |||
Imide | Imide | (RCO)2NR' | imido- | -imide | Succinimide (Pyrrolidine-2,5-dione) | |
Azide | Azide | RN3 | azido- | alkyl azide | Phenyl azide (Azidobenzene) | |
Azo compound | Azo (Diimide) | RN2R' | azo- | -diazene | Methyl orange (p-dimethylamino-azobenzenesulfonic acid) | |
Cyanates | Cyanate | ROCN | cyanato- | alkyl cyanate | Methyl cyanate | |
Isocyanate | RNCO | isocyanato- | alkyl isocyanate | Methyl isocyanate | ||
Nitrate | Nitrate | RONO2 | nitrooxy-, nitroxy- | alkyl nitrate | Amyl nitrate (1-nitrooxypentane) | |
Nitrile | Nitrile | RCN | R−≡Ndisplaystyle ce R-!#N | cyano- | alkanenitrile alkyl cyanide | Benzonitrile (Phenyl cyanide) |
Isonitrile | RNC | R−N+≡C−displaystyle ce R-overset +ce Nce #C^- | isocyano- | alkaneisonitrile alkyl isocyanide | H3C−N+≡C−displaystyle ce H3C-overset +ce Nce #C^- Methyl isocyanide | |
Nitrite | Nitrosooxy | RONO | nitrosooxy- | alkyl nitrite | Isoamyl nitrite (3-methyl-1-nitrosooxybutane) | |
Nitro compound | Nitro | RNO2 | nitro- | | Nitromethane | |
Nitroso compound | Nitroso | RNO | nitroso- (Nitrosyl-) | | Nitrosobenzene | |
Oxime | Oxime | RCH=NOH | Oxime | Acetone oxime (2-Propanone oxime) | ||
Pyridine derivative | Pyridyl | RC5H4N | 4-pyridyl 3-pyridyl 2-pyridyl | -pyridine | Nicotine | |
Carbamate ester | Carbamate | RO(C=O)NR2 | (-carbamoyl)oxy- | -carbamate | Chlorpropham (Isopropyl (3-chlorophenyl)carbamate) |
Groups containing sulfur
Compounds that contain sulfur exhibit unique chemistry due to their ability to form more bonds than oxygen, their lighter analogue on the periodic table. Substitutive nomenclature (marked as prefix in table) is preferred over functional class nomenclature (marked as suffix in table) for sulfides, disulfides, sulfoxides and sulfones.
Chemical class | Group | Formula | Structural Formula | Prefix | Suffix | Example |
---|---|---|---|---|---|---|
Thiol | Sulfhydryl | RSH | sulfanyl- (-SH) | -thiol | Ethanethiol | |
Sulfide (Thioether) | Sulfide | RSR' | substituent sulfanyl- (-SR') | di(substituent) sulfide | (Methylsulfanyl)methane (prefix) or Dimethyl sulfide (suffix) | |
Disulfide | Disulfide | RSSR' | substituent disulfanyl- (-SSR') | di(substituent) disulfide | (Methyldisulfanyl)methane (prefix) or Dimethyl disulfide (suffix) | |
Sulfoxide | Sulfinyl | RSOR' | -sulfinyl- (-SOR') | di(substituent) sulfoxide | (Methanesulfinyl)methane (prefix) or Dimethyl sulfoxide (suffix) | |
Sulfone | Sulfonyl | RSO2R' | -sulfonyl- (-SO2R') | di(substituent) sulfone | (Methanesulfonyl)methane (prefix) or Dimethyl sulfone (suffix) | |
Sulfinic acid | Sulfino | RSO2H | sulfino- (-SO2H) | -sulfinic acid | 2-Aminoethanesulfinic acid | |
Sulfonic acid | Sulfo | RSO3H | sulfo- (-SO3H) | -sulfonic acid | Benzenesulfonic acid | |
Sulfonate ester | Sulfo | RSO3R' | (-sulfonyl)oxy- or alkoxysulfonyl- | R' R-sulfonate | Methyl trifluoromethanesulfonate or Methoxysulfonyl trifluoromethane (prefix) | |
Thiocyanate | Thiocyanate | RSCN | thiocyanato- (-SCN) | substituent thiocyanate | Phenyl thiocyanate | |
Isothiocyanate | RNCS | isothiocyanato- (-NCS) | substituent isothiocyanate | Allyl isothiocyanate | ||
Thioketone | Carbonothioyl | RCSR' | -thioyl- (-CSR') or sulfanylidene- (=S) | -thione | Diphenylmethanethione (Thiobenzophenone) | |
Thial | Carbonothioyl | RCSH | methanethioyl- (-CSH) or sulfanylidene- (=S) | -thial | ||
Thiocarboxylic acid | Carbothioic S-acid | RC=OSH | mercaptocarbonyl- | -thioic S-acid | Thiobenzoic acid (benzothioic S-acid) | |
Carbothioic O-acid | RC=SOH | hydroxy(thiocarbonyl)- | -thioic O-acid | |||
Thioester | Thiolester | RC=OSR' | S-alkyl-alkane-thioate | S-methyl thioacrylate (S-methyl prop-2-enethioate) | ||
Thionoester | RC=SOR' | O-alkyl-alkane-thioate | ||||
Dithiocarboxylic acid | Carbodithioic acid | RCS2H | dithiocarboxy- | -dithioic acid | Dithiobenzoic acid (Benzenecarbodithioic acid) | |
Dithiocarboxylic acid ester | Carbodithio | RC=SSR' | -dithioate |
Groups containing phosphorus
Compounds that contain phosphorus exhibit unique chemistry due to their ability to form more bonds than nitrogen, their lighter analogues on the periodic table.
Chemical class | Group | Formula | Structural Formula | Prefix | Suffix | Example |
---|---|---|---|---|---|---|
Phosphine (Phosphane) | Phosphino | R3P | phosphanyl- | -phosphane | Methylpropylphosphane | |
Phosphonic acid | Phosphono | RP(=O)(OH)2displaystyle ce RP(=O)(OH)2 | phosphono- | substituent phosphonic acid | Benzylphosphonic acid | |
Phosphate | Phosphate | ROP(=O)(OH)2displaystyle ce ROP(=O)(OH)2 | phosphonooxy- or O-phosphono- (phospho-) | substituent phosphate | Glyceraldehyde 3-phosphate (suffix) | |
O-Phosphonocholine (prefix) (Phosphocholine) | ||||||
Phosphodiester | Phosphate | HOPO(OR)2 | [(alkoxy)hydroxyphosphoryl]oxy- or O-[(alkoxy)hydroxyphosphoryl]- | di(substituent) hydrogen phosphate or phosphoric acid di(substituent) ester | DNA | |
O‑[(2‑Guanidinoethoxy)hydroxyphosphoryl]‑.mw-parser-output .smallcapsfont-variant:small-caps l‑serine (prefix) (Lombricine) |
Groups containing boron
Compounds containing boron exhibit unique chemistry due to their having partially filled octets and therefore acting as Lewis acids.
Chemical class | Group | Formula | Structural Formula | Prefix | Suffix | Example |
---|---|---|---|---|---|---|
Boronic acid | Borono | RB(OH)2 | Borono- | substituent boronic acid | Phenylboronic acid | |
Boronic ester | Boronate | RB(OR)2 | O-[bis(alkoxy)alkylboronyl]- | substituent boronic acid di(substituent) ester | ||
Borinic acid | Borino | R2BOH | Hydroxyborino- | di(substituent) borinic acid | ||
Borinic ester | Borinate | R2BOR | O-[alkoxydialkylboronyl]- | di(substituent) borinic acid substituent ester | Diphenylborinic acid 2-aminoethyl ester (2-Aminoethoxydiphenyl borate) |
Names of radicals or moieties
These names are used to refer to the moieties themselves or to radical species, and also to form the names of halides and substituents in larger molecules.
When the parent hydrocarbon is unsaturated, the suffix ("-yl", "-ylidene", or "-ylidyne") replaces "-ane" (e.g. "ethane" becomes "ethyl"); otherwise, the suffix replaces only the final "-e" (e.g. "ethyne" becomes "ethynyl").[4]
Note that when used to refer to moieties, multiple single bonds differ from a single multiple bond. For example, a methylene bridge (methanediyl) has two single bonds, whereas a methylene group (methylidene) has one double bond. Suffixes can be combined, as in methylidyne (triple bond) vs. methylylidene (single bond and double bond) vs. methanetriyl (three double bonds).
There are some retained names, such as methylene for methanediyl, 1,x-phenylene for phenyl-1,x-diyl (where x is 2, 3, or 4),[5]carbyne for methylidyne, and trityl for triphenylmethyl.
Chemical class | Group | Formula | Structural Formula | Prefix | Suffix | Example |
---|---|---|---|---|---|---|
Single bond | R• | Ylo-[6] | -yl | Methyl group Methyl radical | ||
Double bond | R: | ? | -ylidene | Methylidene | ||
Triple bond | R⫶ | ? | -ylidyne | Methylidyne | ||
Carboxylic acyl radical | Acyl | R−C(=O)• | ? | -oyl | Acetyl |
See also
- Category:Functional groups
- Group contribution method
References
^ Compendium of Chemical Terminology (IUPAC "Gold Book") functional group
^ March, Jerry (1985), Advanced Organic Chemistry: Reactions, Mechanisms, and Structure (3rd ed.), New York: Wiley, ISBN 0-471-85472-7.mw-parser-output cite.citationfont-style:inherit.mw-parser-output qquotes:"""""""'""'".mw-parser-output code.cs1-codecolor:inherit;background:inherit;border:inherit;padding:inherit.mw-parser-output .cs1-lock-free abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/6/65/Lock-green.svg/9px-Lock-green.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-lock-limited a,.mw-parser-output .cs1-lock-registration abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Lock-gray-alt-2.svg/9px-Lock-gray-alt-2.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-lock-subscription abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/a/aa/Lock-red-alt-2.svg/9px-Lock-red-alt-2.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registrationcolor:#555.mw-parser-output .cs1-subscription span,.mw-parser-output .cs1-registration spanborder-bottom:1px dotted;cursor:help.mw-parser-output .cs1-hidden-errordisplay:none;font-size:100%.mw-parser-output .cs1-visible-errorfont-size:100%.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration,.mw-parser-output .cs1-formatfont-size:95%.mw-parser-output .cs1-kern-left,.mw-parser-output .cs1-kern-wl-leftpadding-left:0.2em.mw-parser-output .cs1-kern-right,.mw-parser-output .cs1-kern-wl-rightpadding-right:0.2em
^ Brown, Theodore (2002). Chemistry: the central science. Upper Saddle River, NJ: Prentice Hall. p. 1001. ISBN 0130669970.
^ Moss, G. P.; W.H. Powell. "RC-81.1.1. Monovalent radical centers in saturated acyclic and monocyclic hydrocarbons, and the mononuclear EH4 parent hydrides of the carbon family". IUPAC Recommendations 1993. Department of Chemistry, Queen Mary University of London. Archived from the original on 9 February 2015. Retrieved 25 February 2015.
^ "R-2. 5 Substituent Prefix Names Derived from Parent Hydrides". IUPAC. 1993. section P-56.2.1
^ "Revised Nomenclature for Radicals, Ions, Radical Ions and Related Species (IUPAC Recommendations 1993: RC-81.3. Multiple radical centers)".
External links
- IUPAC Blue Book (organic nomenclature)
"IUPAC ligand abbreviations" (PDF). IUPAC. 2 April 2004. Archived from the original (PDF) on 27 September 2007. Retrieved 25 February 2015.
Functional group synthesis from organic-reaction.com