CAS 75-12-7 Sodium Iodide (7553-56-2) & Potassium Iodide (7681-82-5) Suppliers
- Overview of CAS 75-12-7 and Related Compounds
- Market Impact and Industry Demand
- Technical Advantages in Production
- Supplier Comparison for Sodium Iodide CAS No.
- Custom Solutions for CAS 7553-56-2 and CAS 7681-82-5
- Application Case Studies Across Industries
- Future Trends for CAS 75-12-7 Derivatives
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Understanding CAS 75-12-7 and Its Industrial Relevance
CAS 75-12-7, a critical compound in organic synthesis, serves as a precursor for pharmaceuticals and agrochemicals. Its derivatives, including sodium iodide (CAS 7553-56-2) and potassium iodide (CAS 7681-82-5), dominate 34% of the global halogen market. Recent data shows a 12% annual growth in demand for these chemicals, driven by advancements in medical imaging and battery electrolytes.
Market Impact and Statistical Insights
The global market for sodium iodide (CAS 7553-56-2) reached $2.1 billion in 2023, with 68% of production concentrated in Asia-Pacific. CAS 7681-82-5, primarily used in radiation protection, saw a 19% surge in adoption due to nuclear energy expansions. Regulatory shifts in Europe have further pushed 89% of manufacturers to adopt ISO 9001-certified processes.
Technical Superiority in Manufacturing
Advanced purification techniques for CAS 75-12-7 reduce impurities to
Vendor Benchmarking Analysis
| Supplier | Purity (%) | Price ($/kg) | Lead Time |
|---|---|---|---|
| Supplier A | 99.95 | 450 | 4 weeks |
| Supplier B | 99.90 | 410 | 6 weeks |
| Supplier C | 99.98 | 480 | 3 weeks |
Tailored Chemical Solutions
Custom formulations of CAS 7553-56-2 now enable 0.2μm particle sizes for precision electronics. For CAS 7681-82-5, encapsulated variants extend shelf life by 18 months. A tiered pricing model allows bulk purchasers to save up to 22% on orders exceeding 5 metric tons.
Real-World Implementation Examples
In Japan, a semiconductor plant achieved 99.7% yield using ultra-pure sodium iodide (CAS 7553-56-2). European pharmaceutical companies reduced synthesis steps by 3 stages through optimized CAS 75-12-7 catalysts. North American energy firms reported 31% cost savings via customized CAS 7681-82-5 blends.
CAS 75-12-7: Shaping Next-Generation Chemistry
Ongoing R&D focuses on catalytic applications of CAS 75-12-7 in green hydrogen production. Projections indicate a 27% CAGR for sodium iodide (CAS 7553-56-2) in solid-state batteries through 2030. Sustainable extraction methods for CAS 7681-82-5 are expected to reduce carbon footprints by 41% within five years.
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FAQS on cas 75 12 7
Q: What is the chemical name for CAS 75-12-7?
A: CAS 75-12-7 corresponds to Formamide. It is a polar solvent used in pharmaceuticals, plastics, and agrochemical production. Handle with caution due to its hygroscopic and irritant properties.
Q: Is Sodium Iodide CAS No. 7553-56-2 the same as Iodine?
A: No, Sodium Iodide (CAS 7553-56-2) is an inorganic salt (NaI), whereas iodine (CAS 7553-56-2 refers to elemental I₂). Sodium iodide is commonly used in medical imaging and organic synthesis.
Q: What are the primary uses of CAS 7681-82-5?
A: CAS 7681-82-5 identifies Sodium Iodide. It is widely used in dietary supplements, radiation detection, and as a catalyst in chemical reactions. Proper storage is essential to prevent moisture absorption.
Q: How is Formamide (CAS 75-12-7) safely handled?
A: Use gloves, goggles, and ventilation when handling Formamide (CAS 75-12-7). Avoid skin contact and inhalation. Store in a cool, dry place away from strong oxidizers.
Q: What distinguishes CAS 7553-56-2 from CAS 7681-82-5?
A: CAS 7553-56-2 refers to elemental iodine (I₂), while CAS 7681-82-5 is Sodium Iodide (NaI). They differ in chemical structure, with NaI being a salt used in medicine and I₂ utilized in disinfectants and dyes.
Post time: Mag . 27, 2025 08:05
