Cupric Tetrafluoroborate Hydrate
Specifications
| Item | Index | Index |
| Electro-plating grade | Electroplating second grade | |
| Cu(BF4))% | ≥ 45.0 | ≥ 45.0 |
| Cu % | ≥ 12.0 | ≥ 12.0 |
| Free(HBF4% | ≤ 0.7 | ≤ 2.5 |
| Free H3BO3% | ≤ 1.0 | ≤ 4.0 |
| Silicon dioxide(SiO2)% | —— | ≤ 0.6 |
| Iron(Fe)% | ≤ 0.003 | ≤ 0.01 |
| Chlorides (Cl) % | ≤ 0.005 | ≤ 0.03 |
| Sulphates(SO4)% | ≤ 0.005 | ≤ 0.03 |
Packing& Storage
| Packing | 25kg cardboard drum, lined with double-layer plastic bag | |||||||
| Storage | 20℃, 2 years. | |||||||
| Shipping | Room temperature in China; may vary elsewhere | |||||||
General Information
1.1 Chemical & Physical Properties
| Common Names | Cupric tetrafluoroborate hydrate | Borate(1-), tetrafluoro-, copper(2+), hydrate (2:1:1) | ||||||
| Structure |  |
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| CAS No. | 14735-84-3 | Boiling Point (℃) | N/A | ||||
| Molecular Weight | 255.171 | Melting Point (℃) | N/A | ||||
| Appearance | Bright blue liquid | Vapor Specific Gravity | 2.175 | ||||
| HS Code | Flash Point (℃) | N/A | |||||
| Solubility | Soluble in water plating solution | Autoignition Temperature (℃) | N/A | ||||
1.2 Safety Information
| Safety Phrases | S3-S26-S28-S24/25-S36/37/39 | |
| RIDADR | UN 1760 | |
| WGK Germany | N/A | |
| Packaging Group | II | |
| Hazard Class | N/A | |
| SYMPTOMS | PREVENTION | FIRST AID | |
| Inhalation | Cough. Sore throat. | Use local exhaust or breathing protection. | Fresh air, rest. |
| Skin | Redness. Burning sensation. Itching. | Protective gloves. | Remove contaminated clothes. Rinse and then wash skin with water and soap. |
| Eyes | Redness. Pain. | Wear safety goggles. | First rinse with plenty of water for several minutes (remove contact lenses if easily possible), then refer for medical attention. |
| Ingestion | Abdominal pain. Nausea. Vomiting. | Do not eat, drink, or smoke during work. Wash hands before eating. | Rinse mouth. Induce vomiting (ONLY IN CONSCIOUS PERSONS!). Refer for medical attention . |
1.3 Synthetic Route
Put 210 kg of 40% fluoroboric acid into the reactor, and slowly add 63~65 kg of basic copper carbonate. Stir while adding to allow CO2 to escape completely. The feed liquid was filtered to remove the unreacted basic copper carbonate, and the clear liquid was transferred to the evaporator and concentrated to 1/10 of the original volume under reduced pressure. It can be cooled and crystallized, centrifugal dehydration, and the finished product is obtained.