Organic chemistry
Organic chemistry is the scientific study of the structure, properties, composition, reactions, and synthesis of organic compounds.
Organic nomenclature
Organic nomenclature is the system established for naming and grouping organic compounds.
Aliphatic compounds
Aliphatic compounds are organic molecules that do not contain aromatic systems.
Hydrocarbons - Alkanes - Alkenes - Dienes or Alkadienes - Alkynes - Halogenoalkanes - Alcohols - Mercaptans - Ethers - Aldehydes - Ketones - Carboxylic acids - Esters - Carbohydrates - Alicyclic compounds - Amides - Amines - Lipids - Nitriles
Aromatic compounds
Aromatic compounds are organic molecules that contain one or more aromatic ring system.
Benzene - Toluene - Xylene - Aniline - Phenol - Acetophenone - Benzonitrile - Halogenoarenes - Naphthalene - Anthracene - Phenanthrene - Benzopyrene - Coronene - Azulene - Biphenyl
Heterocyclic compounds
Heterocyclic compounds are cyclic organic molecules whose ring(s) contain at least one heteroatom.
Pyridine - Pyrrole - Thiophene - Furan - Imidazole
Polymers
Polymers are a special kind of molecule. Generally considered "large" molecules, polymers are get their reputation regarding size because they are molecules that consist of multiple smaller segments. The segments could be chemically identical, which would make such a molecule a homopolymer. Or the segments could be vary in chemical structure, which would make that molecule a heteropolymer. Polymers are a subset of "macromolecules" which is just a classification for all molecules that are considered large.
Polymers can be organic or inorganic. Commonly-encountered polymers are usually organic (eg. polyethylene, polypropylene, Plexiglas, etc). But inorganic polymers are also familiar to everyday items (eg. silly putty, silicone, etc).
Concepts
Organic nomenclature - Chemical formula - Structural formula - Skeletal formula - Organic reaction
Characteristics of organic substances
The reason that there are so many carbon compounds is that carbon has the ability to form many carbon chains of different lengths, and rings of different sizes (catenation). Many carbon compounds are extremely sensitive to heat, and generally decompose below 300'C. They tend to be less soluble in water compared to many inorganic salts. In contrast to such salts, they tend to be much more soluble in organic solvents such as ether or alcohol. Organic compounds are covalently bonded.
Determining the molecular structure of an organic compound
Currently, there exist several methods for characterizing an organic compound. In general usage are (in alphabetical order):
- Crystallography: The most precise method, but not of practical use, since it is very difficult and expensive.
- Elemental Analysis: A destructive method used to determine the elemental composition of a molecule.
- Infrared spectrometry: Chiefly used to determine the presence (or absence) of certain functional groups.
- Mass spectrometry: Used to determine the molecular weight of a compound and the fragmentation pattern.
- Nuclear magnetic resonance (NMR) spectrometry
See Analytical chemistry for additional methods.
History
Organic chemistry as a science is generally agreed to have started in 1828 with Friedrich Woehler's synthesis of the organic, biologically significant compound urea by accidentally evaporating an aqueous solution of ammonium cyanate(NH4OCN).
See also
bg:Органична химия
ca:Química Orgànica
da:Organisk kemi
de:Organische Chemie
el:Οργανική χημεία
es:Química orgánica
eo:Organika Kemio
fr:Chimie organique
ko:유기화학
hr:Organska kemija
it:Chimica organica
la:Chemica Organica
ms:Kimia organik
nl:Organische chemie
ja:有機化学
no:Organisk kjemi
pl:Chemia organiczna
pt:Química orgânica
ru:Органическая химия
sl:Organska kemija
su:Kimia organik
sv:Organisk kemi
vi:Hoá hữu cơ
zh-tw:有机化学