High Purity CAS 107 19 7 Supplier - Best Price Benzotriazole CAS Solutions

• Introduction: Overview of cas 107 19 7
  and related chemicals
• Chemical structure and properties analysis
• Benchmark data: Performance comparison (featuring a comparison table)
• Technical advantages and innovative solutions
• Manufacturers and supplier analysis
• Customized formulation and tailored applications
• Conclusion: The evolving role of cas 107 19 7 in industry

(cas 107 19 7)

Introduction to cas 107 19 7 and Related Compounds

The world of specialty chemicals is ever-evolving, with cas 107 19 7, cas 95 14 7, and benzotriazole cas becoming integral to numerous industrial applications. These compounds play crucial roles across sectors as diverse as water treatment, corrosion inhibition, automotive engineering, and electronics manufacturing. In this analysis, we focus on their distinctive chemical profiles, their relevance in industrial advancements, and how market trends have shifted due to stricter environmental regulations and a demand for higher performance. The rising consumption of performance chemicals has led to a global surge, with the specialty chemical market projected to reach $900 billion by 2027, fueled by innovations in protective chemistries and increasing demand for custom solutions.

Chemical Structure and Properties Analysis

Understanding the fundamental properties of these compounds is essential. For cas 107 19 7 (Propargyl Alcohol), the molecular formula is C₃H₄O, a unique compound characterized by its high reactivity due to the terminal alkyne group. Its low boiling point (98°C) and water miscibility make it a prime candidate for organic synthesis and as an intermediate in various reactions.

cas 95 14 7 (Benzotriazole), famous for its corrosion inhibition capabilities, has the formula C₆H₅N₃. Its stability across a broad pH range and effective metal protection properties allow it to be a common additive in coolants and cleaners. Meanwhile, benzotriazole cas often refers to the same compound or its derivatives, playing a similar protective role in sensitive industrial systems.

The distinct polarities, thermal stabilities, and solvent compatibilities of these chemicals empower their application in environments where reliability and performance are crucial.

Benchmark Data: Performance Comparison

Industrial users demand empirical data to make informed choices for process improvements. Below is a comparison of key physicochemical properties and industrial performance indicators among cas 107 19 7, cas 95 14 7, and benzotriazole cas (most standards for benzotriazole utilize cas 95 14 7):

CAS Number	Chemical Name	Molecular Formula	Boiling Point (°C)	Water Solubility (g/L, 25°C)	Key Application	Corrosion Inhibition Efficiency (%)
107-19-7	Propargyl Alcohol	C3H4O	98	Miscible	Oilfield, Water Treatment	89.7
95-14-7	Benzotriazole	C6H5N3	204	20	Corrosion Inhibitor	95.4
95-14-7	Benzotriazole Derivatives	C6H5N3 (base)	200-210	15-25	Electronics, Lubricants	91.2-97.8

These data reveal that while cas 107 19 7 is noted for its versatility in synthesis and modest inhibition, benzotriazole and its derivatives clearly dominate in corrosion protection, crucial for demanding environments where component longevity directly impacts costs and reliability.

Technical Advantages and Innovative Solutions

Research-driven advancements spotlight the technical edge delivered by these compounds. Propargyl alcohol serves as a superior intermediate not only due to its reactivity but also its compatibility with diverse catalysts, minimizing energy consumption during synthesis. Recent studies report energy savings of up to 18% via the use of proprietary catalytic cycles when integrating propargyl alcohols in heterocycle syntheses.

For benzotriazole, nanotechnology pairing—where microscale benzotriazole dispersions are integrated into coatings—has led to a documented enhancement in corrosion inhibition by up to 30% over conventional dispersions. Smart inhibitor systems, where the release profile is triggered by pH or electrochemical changes, are drastically reducing the frequency and cost of maintenance in critical infrastructure.

End-users report improved performance, evidenced by reduced downtime and increased operational reliability, positioning these substances at the core of modern industrial protection strategies.

Manufacturers and Supplier Analysis

Choosing the right supplier can determine the quality, consistency, and compliance levels for industrial users. Manufacturers such as BASF, Lanxess, and specialized Chinese chemical exporters dominate the global trade of cas 107 19 7 and benzotriazole cas. Top-tier suppliers offer product traceability, third-party certification (including ISO 9001, 14001), and full support for custom packaging and logistics.

The global supply chain has shifted towards integrated platforms where buyers evaluate not just price and purity, but also sustainability track records and regulatory compliance. For example, 73% of respondents in a recent industry survey cited vendor transparency as a deciding factor in their procurement process. Major manufacturers have responded by publishing environmental impact reports, disclosing supply-chain resilience measures, and investing in advanced purification techniques that exceed REACH and EPA regulatory thresholds.

Choosing a proven supplier with technical support and flexible fulfillment options reduces downtime and ensures reliable compliance in sensitive industries.

Customized Formulation and Tailored Applications

Every industry presents unique challenges that often cannot be solved with standardized chemicals alone. Modern industrial chemistry increasingly involves collaboration between end-users and chemical suppliers to deliver bespoke solutions. For example, in the automotive sector, tailored blends incorporating benzotriazole cas are developed to meet the rigorous life-cycle requirements of multi-metal cooling systems, extending service intervals to over 60,000 miles (a 22% increase compared to standard formulations).

Water treatment specialists request precision-blended propargyl alcohol-based inhibitors to match specific mineral compositions and flow dynamics, cutting additive consumption by 15% and reducing costs. In the electronics industry, cleanroom-rated grades of benzotriazole minimize trace metal interference, helping manufacturers achieve defect rates below 0.06% in sensitive circuit board production.

Providers with in-house R&D teams can rapidly prototype and validate custom solutions, delivering direct cost savings and quantifiable process improvements. This partnership model, underpinned by mutual expertise, is central to competitive advantage in modern manufacturing.

The Evolving Role of cas 107 19 7 in Industrial Innovation

In summary, the strategic integration of cas 107 19 7, cas 95 14 7, and derivatives such as benzotriazole cas across industrial sectors is not simply a matter of specification, but a driver of cost savings, efficiency, and long-term sustainability. The ability to benchmark performance, understand technical advantages, differentiate between suppliers, and request custom applications empowers end-users to remain ahead of industry trends. Looking ahead, demand is expected to continue its upward trajectory, shaped by a combination of regulatory pressure, sustainability focus, and relentless pursuit of higher performance. The ongoing partnership between chemical manufacturers and industrial users stands as a testament to the adaptability and enduring relevance of these specialized compounds.

(cas 107 19 7)

FAQS on cas 107 19 7

Q: What is CAS 107-19-7?

A: CAS 107-19-7 is the chemical identifier for propargyl alcohol. It is commonly used in organic synthesis and as a corrosion inhibitor. Its molecular formula is C3H4O.

Q: What is the difference between CAS 107-19-7 and CAS 95-14-7?

A: CAS 107-19-7 refers to propargyl alcohol, while CAS 95-14-7 is benzotriazole. These chemicals differ in structure, properties, and applications. Benzotriazole is often used as a corrosion inhibitor for metals.

Q: What is benzotriazole CAS?

A: "Benzotriazole CAS" generally refers to benzotriazole with the CAS number 95-14-7. It is an aromatic compound used in various industrial applications. It is especially valued for its corrosion protection of copper and its alloys.

Q: What are the common uses of CAS 107-19-7?

A: CAS 107-19-7 (propargyl alcohol) is primarily used in organic synthesis and as a chemical intermediate. It also acts as a corrosion inhibitor. Additionally, it's sometimes used in polymerization reactions.

Q: Is benzotriazole (CAS 95-14-7) related to propargyl alcohol (CAS 107-19-7)?

A: Benzotriazole (CAS 95-14-7) and propargyl alcohol (CAS 107-19-7) are chemically unrelated. They have different structures and serve distinct purposes in industry. Both, however, can serve as corrosion inhibitors.