Copper citrate
COEI-1-CUICIT Copper citrate x 2.5-hydrate
Copper citrate hemipentahydrate
x 2.5 
CAS-number: 10402-15-0
molecular weight: 360 g/mol
- Subject, origin and field of application
Copper citrate is applied for the treatment of wine to remove fermentation and storage related off-flavours (sulphide off-flavours, flavours caused by reduction reactions, flavours caused by the presence of hydrosulfuric acid and mercaptans).
The copper sulphide formed during the treatment precipitates in wine as it is a very poorly soluble compound and can be separated by filtration.
Addition to the wine can be made directly or preferably by means of bentonite as a carrier material. The purity requirements of Codex resolution OENO 11/2003 apply for the bentonite used.
The addition to the wine is limited (resolution OENO 1/2008), legally permitted limits of copper contents in wine must be respected.
- Labelling
The product concentration, the batch number, the date of expiry, safety warnings and storage conditions have to be indicated on the label.
- Appearance
Light green to light blue granulated crystals.
- Content (Assay)
Minimum of 98 % copper citrate x 2.5-hydrate.
With products on carrier material, a minimum of 2 % copper citrate x 2.5-hydrate.
- Identification
Copper citrate dissolved in 10 % nitric acid reacts with ammonium hydroxide (R) to form a dark blue complex of tetramine copper.
Heating to dryness at more than 180 °C leads to the carbonization of the citrate.
- Solubility
- Less than 0.05 g/L in water at 20 °C, in methanol and in ethanol.
- Approx. 250 g/L in 10 % HCl (R).
- Approx. 140-150 g/L in 10 % HNO3 (R).
- Tests
- Preparation of the test solution
Dissolution of 10 g copper citrate in 100 mL 10 % HNO3 (R).
7.2. Appearance of the test solution
The solution is light blue.
7.3. Iron
Determination by atomic absorption spectrophotometry (AAS); content below 200 mg/kg.
Remark:
The method described in the OIV resolution (OENO 25/2000) leads to a dissolving-out of the iron in the test solution by shaking with 4-methylpentan-2-one and transfer into the organic phase. The iron concentration in the organic phase is not determined. The analysis is merely to test whether the second aqueous phase still contains iron.
By means of AAS, the iron content can be measured directly and precisely.
With a maximum of 200 mg iron per kilogramme of copper citrate and a treatment with at the most 1 g copper citrate per 100 litres of wine, the increase of the iron concentration in wine amounts to a maximum of 0.002 mg per litre and is thus negligible.
7.4. Nickel
Determination by atomic absorption spectrophotometry (AAS); content below 5 mg/kg.
7.5. Chloride
Add 1 mL silver nitrate solution 0.1 M to 4 mL of the test solution. After 5 minutes mix the sample.
The turbidity must not exceed that of the test conducted with the reference solution.
Reference solution:
Dilute 4 mL sodium chloride solution 0.1 M with water to a volume of 100 mL.
Blank test:
1 mL of the freshly prepared reference solution is used instead of the test solution. Proceed in the same way as in the test mentioned above.
Remark:
A pretreatment of the test solution is not necessary, since it is nitric acid.
7.6. Lead
Determination by atomic absorption spectrophotometry (AAS); content below 5 mg/kg.
7.7. Mercury
Determination by atomic absorption spectrophotometry (AAS); content below 1 mg/kg.
7.8. Arsenic
Determination by atomic absorption spectrophotometry (AAS); content below 3 mg/kg.
7.9. Assay
Pour 1 mL test solution, 20 mL water, 2 mL acetic acid 6 M, 2 g potassium iodide and 2 mL starch solution (R) into a titration vessel. Titration is conducted with 0.1 M sodium thiosulphate solution up to the colour change.
A consumption of 1 mL sodium thiosulphate solution corresponds to 6.354 mg Cu(II) or to 18 mg expressed as copper citrate.
- Storage
Copper citrate must be stored dry, protected from odours in hermetically closed packaging.