Chromium Compounds And Catalysts

About Chromium Compounds and Catalysts

Cr3C2 powder, CrB2 powder, Nano Cr2O3 powder, Cr2S3 powder, Chromium acetylacetonate, Chromium fluorid-tetrahydrate powder, Cr2(CO3)3 powder, CrCl3 powder, CrO2 powder, CrPO4 powder.

Purity: ≥99,9%

Chromium compounds are central to various industrial processes. They are used in processes where repeatable chemical outcomes are required. Independent tests confirm purity levels of ≥99,9%.

1. Chromium Oxide Catalysts:

Chromium oxide catalysts are employed in catalytic reactions including ammonia synthesis, methanol production and hydrocarbon conversion. Studies demonstrate measurable catalytic activity, selectivity and durability.

2. Chromium Acetate Compounds:

Chromium acetate compounds function as catalyst precursors in chemical applications. They enable defined reaction control in organic synthesis and polymerisation. Laboratory evaluations show consistent reproducibility.

3. Chromium Nitrate Solutions:

Chromium nitrate solutions are used in electroplating, tanning and textile dyeing. They facilitate the deposition of corrosion‐resistant coatings on different substrates. Process data confirm consistent performance in industrial trials.

4. Chromium Complexes for Organic Synthesis:

Chromium complexes are employed as catalysts in oxidation, polymerisation and coupling reactions. They are applied in standard organic synthesis experiments. Measurement results indicate uniform reaction outcomes.

5. Chromium-Clay Catalyst Supports:

Chromium–clay catalyst supports are used to hold active catalytic components. The material matrix ensures even dispersion and maintained stability. Comparative tests record an extended catalyst lifespan.

6. Chromium-Molybdenum Catalysts:

Chromium–molybdenum catalysts are implemented in hydrodesulphurisation, hydrodenitrogenation and other refining processes. Laboratory measurements show a quantifiable increase in catalytic activity and stability. This results in improved sulphur removal efficiency.

7. Chromium Carbonyl Compounds:

Chromium carbonyl compounds are utilised as starting materials and catalysts in organometallic chemistry. They support several organic conversion reactions, including oxidation and coupling. Empirical data confirm consistent reaction efficiency and selectivity.