Functional Groups!! (by Bev)

What are functional groups?

-organic compounds that are comprised elements other than carbon or hydrogen (ex. nitrogen & oxygen)

-tend to be the most reactive part of the molecule

types of functional groups: alcohols, halides, aldehydes, ketones

Halides & Nitro Compounds

-naming: close to that of simple hydrocarbons - can be fixed to alkanes, alkenes, & alkynes (end w/-ANE)

           -if there is more than 1 of the SAME halogen/molecule attached to 1 molecule, add the prefix di, tri, tetra, penta, etc. before the halogen/molecule prefix

            -if there are DIFFERENT halogens/molecules attached to 1 molecule, list the positions in alphabetical order

(ex. 2,4,4-tribromo-5-chlorononane)

-the main chain name obtains one of these prefixes that are fixed to it

Halogens		Molecules
F	Fluoro	NO2	Nitro
Cl	Chloro
Br	Bromo
I	Iodo

Ex. 1 (top left): # of carbon atoms: 1 à methane # of halogens: 3 Cl in the first carbon position à tricloro

Ex. 2 (top right): # of carbon atoms: 1 à methane # of halogens: 4 Cl in the first carbon position à tetrachloro

Ex. 3 (below):

***Note: each empty corner represents ONE carbon atom, thus there are 2 carbons in this molecule! :D

2 carbons = ethane

1 Cl attached in the first carbon position (recall: there isn’t a set direction in which to count the position that the carbon is in; count from the whichever way creates a smaller #, in this case, from left to right)

This compound is called 1-chloroethane or simply chloroethane.

Properties of Halides

-tend to be insoluble in H2O

-compounds combined with fluorine are non-reactive (inert)

                Ex. Teflon, which makes up the thin non-stick surface on frying pans

-compounds containing chlorine or bromine are more reactive under extreme conditions

-compounds that have iodine are quite reactive; they can be easily substituted with other functional groups

Properties of Nitro Compounds

-often insoluble in H2O

-inert to chemical attack unless under extreme conditions

-generally explosive

                Ex. TNT (trinitrotoluene & nitroglycerine)

-most smell pleasantly fruity

Alcohols

-have an –OH (hydroxyl) functional group

-naming: use the longest carbon chain containing the OH group & replace the ‘e’ ending in the parent hydrocarbon with ‘ol’

                -remember: always use the smallest # possible for the OH group even if the branched parts will get a higher # (ex. 4-methyl-2-pentanol rather than 2-methyl-4-pentanol)

                -if a molecule contains 2 or more hydroxyl groups, # both and add –diol, -triol, etc. endings

ß 1, 2-ethanediol

Ex. butanol

-the longest carbon chain containing OH is 4 à butanol

Properties of Alcohol

-somewhat soluble in H2O: the hydroxyl (OH) group breaks off, but the hydrocarbon chain is often insoluble

-ALL alcohols are poisonous to an extent

                Ex. Ethanol: type of alcohol found in alcoholic beverages

Ex.

Longest carbon chain w/OH: 3 à propanol

Some other types of alcohols:

Aldehydes

-have a double bonded oxygen at the end of the chain

-follow regular naming rules & change parent chain ending to –al (do NOT confuse w/alcohols, even though they are pronounced the same)

butanol

propanal

2-methyl propanol

Ketones

-contain a double bonded oxygen that is NOT on either end of the hydrocarbon chain

-ending: -one

hexone

acetone

hexanone

octanone

Properties of Aldehydes & Ketones

-both: somewhat soluble in H2O

-aldehydes: quite reactive; easily turned or ‘oxidized’ into carboxylic acids

-ketones: rather non-reactive

Youtube links for extra help:

http://www.youtube.com/watch?v=ndOwa5zET8Y (VERY helpful)

http://www.youtube.com/watch?v=4rRA6fuS_JU (hahahahhahaha)