unit 3)molecular orbitals -colour Flashcards
molecular orbital theory can be used to explain why organic molecules are ____ or _____
most organic molecules are ______
coloured
colourless
most organic molecules are colourless
end on overlap of atomic orbitals along the axis of the bond results in….
side on overlap of atomic orbitals along the axis of the bond results in….
end on- sigma bonding orbital, sigma antibonding orbital
side on- pi bonding orbital, pi antibonding orbital
bonding molecular orbitals contain _____ and non bonding orbitals contain ____ _____ of electrons
electrons
lone pairs
the sigma and pi bonding orbitals contain normal bonding pairs of ______
the sigma and pi antibonding orbitals contain no ______
why?
electrons
no electrons , so are empty
- electrons fill the bonding molecular orbitals first as they have lower energy than the antibonding molecular orbitals, so antibonding orbitals will be empty
several transitions are possible between the molecular orbitals, each with an electron being ______ from a full orbital into an empty one
excited
how do transitions between molecular orbitals occur
- energy from photon is used to promote electrons from bonding or non bonding orbitals, into the higher energy antibonding orbitals
- so when absorption occurs , electrons are excited and promoted from the filled orbital(eg electron from pi or sigma bonding orbital/lone pair from non bonding orbital) into higher energy antibonding orbital
colour or colourless ?
- saturated compounds with only sigma bond
- unsaturated compounds with pi bond
- colourless
- colourless
in saturated compounds containing only a sigma bond, what is the HOMO and what is the LUMO
- sigma bonding orbital is the HOMO(highest occupied molecular orbital)
- sigma antibonding orbital is the LUMO (lowest unoccupied molecular orbital)
the transition between these orbitals (sigma bonding orbital and sigma antibonding orbital) is ____ ______
quite large (requires high energy)
so why are saturated compounds with only sigma bonds colourless
the transition (between sigma bonding and antibonding orbitals) is high energy and corresponds to the ultraviolet part of the spectrum, no visible light is absorbed so the compound is colourless
explain why compounds containing simple pi bonds are also colourless
eg ethene , butene
- there is still a large transition required to promote an electron from the HOMO (pi bonding orbital to the LUMO( sigma antibonding orbital) so these compounds also absorb in the ultraviolet part of the spectrum and are colourless.
what does homo and lumo actually mean
- the orbital containing electrons with the highest energy is known as the highest occupied molecular orbital (HOMO)
- the name given to lowest energy molecular orbital that is empty is the lowest unoccupied molecular orbital (LUMO)
what is conjugation/ a conjugated system
what features do organic molecules with colour have
what dp these features allow?
- large numbers of carbon atoms, must contain alternating pi and sigma bonds (single and double bonds) or benzene rings.
- these features allow the molecule to have electrons that are delocalised across a number of carbon atoms. this is known as a conjugated system
organic molecules must contain a large degree of ______ to be coloured
conjugation
