Colour by Design

Question 1

Why are transition metals coloured?

Answer 1

Electrons in their d-orbitals can be excited.

Question 2

How do ligands affect the d-orbitals of transition metals?

Answer 2

Ligands cause the d-orbital electrons of the metal ion to split into two different energy levels. Orbitals close to the ligands are pushed to slightly higher energy levels than those further away.

Question 3

How does E=hv apply for complexes?

Answer 3

When light is passed through a solution of a complex, a photon of light is absorbed, causing electrons to be promoted to a higher energy level. The energy of the photon corresponds to the excitation of an electron from a low energy level to a high energy level. This affects the frequency of light absorbed due to the formula E=hv.

Question 4

What four factors affect the excitation energy?

Answer 4

1. The type of ligand
2. The shape of the complex
3. The charge of the central transition metal
4. The coordination number

Question 5

Which four methods are there of identifying the materials in a painting?

Answer 5

1. Atomic emission spectrum
2. Ultraviolet and visible spectrometer
3. Reflectance spectra
4. Gas-liquid chromatography

Question 6

How does a UV and visible spectrometer work?

Answer 6

Source of UV and visible light split into two beams. One passes through a sample and one through the pure solvent. The two beams recombine to produce an absorption spectrum.

Question 7

How can you interpret the spectrum of a UV and visible spectrometer?

Answer 7

The wavelength of the maximum absorption should be found. The colour of the solution has the colour of the complementary wavelength to this.

Question 8

When is a reflectance spectra used, opposed to a UV and visible spectra?

Answer 8

If a substance cannot be made into a solution reflectance can be used.

Question 9

How does a reflectance spectra work?

Answer 9

UV and visible light is shone onto the surface and the reflected light is collected and analysed.

Question 10

When is gas-liquid chromatography used?

Answer 10

Chromatography is a method of separating and identifying the components of a mixture e.g. the components that make up the oils used in a painting.

Question 11

What is the mobile phase in GLC?

Answer 11

An inert/unreactive carrier gas e.g. nitrogen.

Question 12

What is the stationary phase in GLC?

Answer 12

A small amount of high boiling liquid held on a finely divided inert solid support and packed into a long thin tube called a column.

Question 13

What are the steps of GLC?

Answer 13

1. A sample is injected into an inert carrier gas stream just before it enters the column.
2. The components of the mixture are carried through the column in the stream of gas.
3. Each component has a different affinity for the stationary phase compared to the mobile phase and distributes itself to different extents between the two phases.
4. Each component emerges from the column at different times. Those which favour the mobile phase emerge first.
5. A detector monitors the compounds coming out of the column.
6. Signals from the detector are plotted out by a recorder as a chromatogram.

Question 14

What is the retention time in GLC?

Answer 14

The time that a compound is held on a column under given conditions and takes to emerge.

Question 15

Which three factors affect the retention time of a compound?

Answer 15

1. Length and packing of the column
2. Nature and flow rate of the carrier gas
3. Temperature of the column

Question 16

How does electron delocalisation occur in benzene?

Answer 16

Carbon atoms have one outer electron which is not involved in bonding. These electrons are spread out evenly and shared by all the carbon atoms in the ring.

Question 17

What are arenes?

Answer 17

Hydrocarbons (like benzene), which contain rings stabilized by electron delocalisation.

Question 18

What is a three ring carbon fused system called?

Answer 18

Anthracene.

Question 19

Why is the benzene ring stable due to the delocalisation of electrons?

Answer 19

The electrons are far apart and there is therefore, minimum repulsion.

Question 20

What are the two products of sulfonation?

Answer 20

Benzenesulfonic acid and water.

Question 21

What is the electrophile of sulfonation?

Answer 21

SO3

Question 22

What is the electrophile of Friedel-Crafts alkylation?

Answer 22

R+

Question 23

What is the electrophile of Friedel-Crafts acylation?

Answer 23

RCO+

Question 24

What is a chromophore?

Answer 24

The part of an organic compound responsible for its colour. An extended delocalised system of electrons containing unsaturated groups, for instance, C=C, C=O and -N=N-.

Question 25

Why do electrons in double bonds and in extended delocalised systems require less energy to excite than those in covalent bonds?

Answer 25

They are more spread out. This means as they absorb less energy, they absorb in the visible spectrum, thus having colours.

Question 26

How does the formation of diazonium salts occur?

Answer 26

1. NaNO2 + HCl = NaCl + HNO2

2. Phenylamine + HNO2 + H+ = Benzenediazonium ion + 2H2O

Question 27

What are the conditions for the formation of diazonium salts?

Answer 27

Below 5 degrees, as above this benzenediazonium salts decompose.

Question 28

Why do coupling reactions occur?

Answer 28

The benzenediazonium ion acts as an electrophile and reacts with the benzene ring of the coupling agent.

Question 29

How can the solubility of diazonium dyes be increased?

Answer 29

1. Alkali can be added to ionise -COOH to -COO-
2. Acid can be added to ionise -NH2 to -NH3
3. SO2OH can be added as this ionises to -SO3-
   These can form ion-dipole bonds and be hydrated.

Question 30

How can hydrogen bonds be formed with cotton?

Answer 30

Direct dyes have -NH2 and -OH groups and these can form hydrogen bonds and ID-ID bonds with -OH bonds in cotton.

Question 31

How can covalent bonds be formed?

Answer 31

Dyes can be modified to contain reaction groups with hydroxyl of cotton and -NH2 groups of wool and silk.

Question 32

Why are covalent bonds best formed with cotton?

Answer 32

They form best in alkaline conditions as -NH2 is more likely to lose a proton, but alkaline conditions denature protein fibres as peptide links can be hydrolysed. Therefore, cotton is more resistant.

Question 33

How can pH be regulated when forming covalent bonds with dyes?

Answer 33

Buffer solutions can be added.