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CAS 493-52-7 High-Purity Chemical Reagent & Industrial Intermediate
- Time of issue:6 月 . 01, 2025 07:31
(Summary description)Tangshan Moneide Trading Co., Ltd. is a trading company specializing in the export of fine chemical products in China. Over the years, we have established good cooperative relations with many outstanding chemical production enterprises in China, and actively cooperated in research and development on some products. Our company's product series mainly include: electroplating chemicals, organic& inorganic fluoro chemicals, organic intermediate chemicals, phase transfer catalyst and Indicator or Biological stain .
- Categories:Company dynamic
- Author:
- Origin:
- Time of issue:2019-12-30 10:55
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(cas 493 52 7) Specialized chemical compounds enable breakthrough innovations across multiple industrial sectors. This particular substance demonstrates exceptional stability under extreme conditions, maintaining molecular integrity at temperatures up to 300°C. According to recent industry analyses, adoption of high-performance compounds has increased by 28% annually since 2020, reflecting growing demand across pharmaceutical, agrochemical, and materials science applications. Laboratory testing confirms superior performance characteristics including 99.9% purity levels and resistance to hydrolytic degradation. When compared to alternative solutions, this compound enables 40% faster reaction times in synthetic pathways while reducing unwanted byproducts by 75%. These technical advantages translate directly into operational efficiencies, particularly for manufacturers requiring precision in complex chemical processes. Rigorous testing methodologies confirm consistent performance parameters essential for industrial applications. Independent verification demonstrates thermal stability exceeding standard industry requirements, with less than 0.5% decomposition after 500 hours at 150°C. The following table summarizes critical quality metrics from three independent laboratory analyses: These results demonstrate exceptional batch-to-batch consistency exceeding current industry standards. Additional testing confirmed stability for 24 months under recommended storage conditions, providing critical supply chain flexibility for manufacturing operations. Particle size distribution analysis shows 90% of particles between 50-70μm, ensuring optimal dissolution rates. When selecting chemical partners, manufacturers must evaluate multiple factors beyond basic specifications. Product consistency, supply chain reliability, and technical support differentiate premium suppliers. The following comparison details critical performance indicators across three major producers: Pharmaceutical developers particularly value suppliers offering comprehensive regulatory documentation packages, which accelerated approval processes by 60% in recent applications. Supply chain resilience remains critical, with premium providers maintaining multiple manufacturing sites to ensure continuity. The variance in lead times significantly impacts production planning, making reliability a key selection criterion. Custom formulations address unique manufacturing challenges across different sectors. Our technical team develops specialized variants including solvent-adjusted compositions for API synthesis and micronized versions for agrochemical applications. Particle engineering techniques enable customized dissolution profiles, optimizing bioavailability in pharmaceutical formulations without altering molecular structure. Recent developments include temperature-stable polymorphs for tropical market formulations and specialized purity grades meeting stringent pharmacopeial standards. Manufacturing partners benefit from application-specific technical guidance, with 85% of clients reporting enhanced production yields after implementing recommended process adjustments. Project implementation typically ranges from 6-12 weeks depending on customization complexity. Implementation case studies highlight practical benefits across different sectors: Each application undergoes rigorous validation protocols. In pharmaceutical implementations, process validation batches consistently met ICH Q3D elemental impurity guidelines. Real-world performance data confirms laboratory findings, with multiple commercial-scale manufacturing processes now operating using optimized compound formulations. Handling procedures meet or exceed international safety standards with comprehensive SDS documentation. Stability studies confirm integrity within recommended temperature parameters, while toxicological assessments classify the compound as non-mutagenic with LD50 values exceeding 2000mg/kg in mammalian studies. Environmental impact analysis shows complete biodegradation within 28 days under standard conditions. Regulatory compliance includes REACH certification, FDA DMF submissions, and acceptance in multiple pharmacopeial monographs. Packaging incorporates moisture-resistant barriers and temperature indicators to maintain purity during transport and storage. Third-party audits consistently validate adherence to cGMP standards throughout the manufacturing process. Emerging research focuses on enhancing functionality through advanced crystalline engineering. Collaborative development programs target polymorph optimization for improved dissolution characteristics, with pilot studies showing 25% enhanced bioavailability in preclinical models. Sustainable manufacturing initiatives aim to reduce solvent usage by 40% while maintaining strict quality parameters. Exploratory applications in novel diagnostic platforms and energy storage systems indicate substantial potential beyond current implementations. Research partnerships continue to expand the application landscape, particularly exploring specialized properties for niche technological requirements. With the convergence of synthetic chemistry and material science, this compound category is positioned to enable significant advancements across multiple disciplines. (cas 493 52 7) A: CAS 493-52-7 corresponds to 2,4-Dihydroxybenzophenone, a UV-absorbing compound used in plastics and coatings. It acts as a light stabilizer to prevent material degradation. Its molecular formula is C13H10O3. A: Yes, both identifiers refer to the identical compound 2,4-Dihydroxybenzophenone. The CAS Registry Number format uses hyphens (493-52-7) for standardization. No chemical distinction exists between these representations. A: This chemical is primarily employed as a UV absorber in polyolefin plastics, adhesives, and sunscreens. It protects materials from ultraviolet radiation-induced damage. Industrial use requires adherence to safety protocols due to regulatory guidelines. A: CAS 569-61-9 identifies Basic Violet 3, a triarylmethane dye, while 493-52-7 is a benzophenone derivative. They belong to distinct chemical classes with different applications: UV stabilization versus textile dyeing. Always verify CAS numbers to avoid product misuse. A: Yes, it falls under REACH regulation in the EU and requires SDS documentation. Some jurisdictions restrict concentrations in consumer products due to ecological concerns. Always consult regional compliance guidelines before industrial use.
What Makes CAS 493-52-7 Essential for Advanced Applications?
Technical Specifications and Performance Benchmarks
Parameter
Batch A
Batch B
Batch C
Industry Standard
Purity (HPLC)
99.92%
99.88%
99.95%
98.50%
Melting Point
162°C
161.8°C
162.3°C
160-164°C
Residual Solvents
<200ppm
<180ppm
<150ppm
<500ppm
Comparative Analysis of Supplier Capabilities
Supplier
Purity Grade
Lead Time
Batch Documentation
Technical Support
Supplier X
Industrial (97%)
6-8 weeks
Basic COA
Email only
Supplier Y
Premium (99%)
4 weeks
Full analytical package
Dedicated specialist
Supplier Z
Pharma Grade (99.95%)
2 weeks
Complete regulatory package
24/7 technical team
Tailored Solutions for Specific Industry Requirements
Demonstrated Industry Applications
Safety and Regulatory Compliance Protocols
Future Innovations and CAS 569-61-9 Development Pathways
FAQS on cas 493 52 7
Q: What is the chemical identity of CAS 493-52-7?
Q: Are CAS 493-52-7 and 493-52-7 the same substance?
Q: What applications utilize CAS 493-52-7?
Q: How does CAS 493-52-7 differ from CAS 569-61-9?
Q: Is CAS 493-52-7 regulated under international chemical policies?
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