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Calcium(II) Acetylacetonate, commonly known by its CAS Registry Number 19372 44 2, is a versatile organometallic compound that plays a pivotal role in a multitude of industrial and scientific applications. Its unique chemical structure, characterized by calcium chelated with two acetylacetonate ligands, imparts exceptional thermal stability, solubility in various organic solvents, and distinct reactivity. This makes calcium acetylacetonate an indispensable material in fields ranging from polymer chemistry and catalysis to electronics and pharmaceutical synthesis. As industries demand higher performance and more sustainable solutions, the significance of high-purity 19372 44 2 continues to grow, driving innovation and expanding its market footprint globally.

Industry Trends and Market Dynamics for Calcium(II) Acetylacetonate

The global market for advanced chemical compounds like 19372 44 2 is experiencing robust growth, primarily driven by increasing demand from the electronics, automotive, construction, and pharmaceutical sectors. Recent market analyses indicate a compound annual growth rate (CAGR) for organometallic compounds, including calcium acetylacetonate, projected to be around 5-7% over the next five years. This growth is fueled by several key trends:

• Growth in Polymer Additives: 19372 44 2 is gaining traction as a co-catalyst, stabilizer, and curing agent in various polymer formulations, particularly in polyolefins and PVC. Its ability to improve thermal stability and processing characteristics without compromising mechanical properties makes it a preferred choice.
• Advancements in Catalysis: As the chemical industry shifts towards more efficient and selective synthesis routes, calcium acetylacetonate serves as a precursor for novel catalysts, especially in organic synthesis and polymerization reactions. Its mild Lewis acid character and versatile coordination chemistry are highly valued.
• Emergence in Electronics: In the electronics sector, calcium acetylacetonate is explored for its potential in chemical vapor deposition (CVD) and atomic layer deposition (ALD) processes to create thin films for semiconductors, high-k dielectrics, and transparent conductive oxides. The demand for advanced materials in 5G technology and IoT devices further propels this application.
• Focus on Sustainability: There's a growing industry emphasis on environmentally friendly chemicals and processes. Calcium acetylacetonate, being a non-toxic and relatively stable compound, aligns with these sustainability goals, particularly when compared to certain heavy metal alternatives.
• Regulatory Landscape: While generally considered safe, the evolving regulatory environment for chemical substances, especially in regions like Europe (REACH) and North America, requires manufacturers to ensure high purity and transparent supply chains for calcium acetylacetonate. This pushes suppliers to adhere to stringent quality control standards and provide comprehensive safety data sheets (SDS).

These trends highlight the critical role of high-quality 19372 44 2 suppliers who can meet not only the technical specifications but also the evolving regulatory and sustainability requirements of the market.

Technical Parameters and Properties of Calcium(II) Acetylacetonate

Calcium(II) Acetylacetonate (CAS: 19372 44 2) is characterized by a set of precise technical parameters that dictate its performance and suitability for various applications. Understanding these specifications is crucial for formulators and researchers to ensure optimal results.

Key Specifications of Calcium(II) Acetylacetonate

Parameter	Specification	Typical Value	Significance
Chemical Formula	Ca(C5H7O2)2	Ca(C5H7O2)2	Defines molecular composition.
CAS Number	19372 44 2	19372 44 2	Unique identifier for chemical substances.
Molecular Weight	262.30 g/mol	262.30 g/mol	Important for stoichiometric calculations.
Appearance	White to Off-White Powder	White Crystalline Powder	Visual indicator of purity and form.
Purity (HPLC/Titration)	≥ 99.0%	99.5%	Crucial for high-performance applications; minimizes impurities.
Calcium Content	15.0 - 15.5%	15.2%	Direct measure of the active calcium component.
Melting Point	> 270 °C (decomposes)	~272 °C (decomposes)	Indicates thermal stability; decomposes before melting.
Solubility	Slightly soluble in water, soluble in organic solvents (e.g., ethanol, chloroform, DMSO)	Soluble in Ethanol, Chloroform	Determines compatibility with various formulations and reaction media.
Bulk Density	0.4 - 0.6 g/cm³	0.5 g/cm³	Relevant for handling, storage, and volumetric dosing.
Moisture Content (Karl Fischer)	≤ 0.5%	0.15%	Low moisture content is critical for stability and reactivity, preventing hydrolysis.
Heavy Metals (as Pb)	≤ 10 ppm		Ensures compliance with environmental and health standards, especially for pharmaceutical or food-contact applications.
pH (1% aqueous solution)	6.0 - 8.0	7.2	Indicates neutrality in solution, important for sensitive applications.

These parameters are meticulously monitored during the production of calcium acetylacetonate to guarantee consistent quality and performance. High purity, in particular, is paramount, as even trace impurities can significantly impact the efficacy of catalysts or the stability of polymers. The decomposition point above 270°C highlights its excellent thermal stability, making it suitable for high-temperature processing applications where many other calcium compounds would degrade.

The Meticulous Manufacturing Process of Calcium(II) Acetylacetonate

The synthesis of high-purity 19372 44 2 involves a multi-step chemical process that requires precise control over reaction conditions, meticulous purification, and rigorous quality assurance. Unlike mechanical components that undergo casting or machining, the production of a fine chemical like calcium acetylacetonate focuses on chemical purity, crystal morphology, and removal of impurities.

Manufacturing Process Flow Overview:

The general synthesis pathway typically involves the reaction of a calcium source with acetylacetone in a controlled environment. A simplified yet detailed process flow is outlined below, emphasizing critical control points:

1. Raw Material Preparation:
Calcium Source (e.g., Calcium Oxide, Calcium Hydroxide, or Calcium Carbonate) → Acetylacetone (CH₃COCH₂COCH₃) → Solvent (e.g., water, alcohol)
Key Focus: Purity and precise stoichiometry of starting materials are paramount. Impurities in raw materials directly translate to impurities in the final product. Quality checks, often against ISO 9001 standards for incoming materials, ensure consistency.

2. Reaction/Complexation:
Calcium Source + Acetylacetone + Solvent → [Controlled Mixing & Reaction] → Formation of Calcium(II) Acetylacetonate Complex
Process Details: This step involves the controlled addition of acetylacetone to a suspension or solution of the calcium source, often at a specific pH range and temperature. The reaction is typically exothermic, requiring careful temperature management to prevent degradation or side reactions. Stirring speed, reaction time, and pH are crucial parameters that influence the yield and quality of the nascent calcium acetylacetonate product. The chelation reaction forms the stable five-membered ring structure characteristic of the acetylacetonate complex. For instance, using calcium hydroxide allows for a direct acid-base reaction with acetylacetone.

3. Filtration & Separation:
Reaction Mixture → [Filtration/Centrifugation] → Crude Calcium(II) Acetylacetonate Solid + Mother Liquor
Process Details: After the reaction, the insoluble 19372 44 2 product is separated from the reaction solvent and any unreacted materials or soluble by-products. This is typically done via filtration (e.g., vacuum filtration, pressure filtration) or centrifugation. The efficiency of this step impacts the initial purity of the isolated solid.

4. Washing & Purification:
Crude Solid → [Washing with Fresh Solvent] → Removal of Impurities → Purified Calcium(II) Acetylacetonate
Process Details: The separated solid is then subjected to multiple washing steps using appropriate solvents (e.g., deionized water, ethanol). This removes residual mother liquor, unreacted starting materials, and soluble impurities. Multiple washes or even re-crystallization may be employed for ultra-high purity grades. This stage is critical for achieving the specified purity levels, often measured by techniques like HPLC or ICP-OES for trace metals.

5. Drying:
Washed Solid → [Drying (Vacuum Oven/Tray Dryer)] → Anhydrous 19372 44 2 Powder
Process Details: The purified wet product needs to be thoroughly dried to remove all residual solvents and moisture. Vacuum drying at controlled temperatures is common to prevent thermal decomposition and ensure the product meets low moisture content specifications (e.g., ≤ 0.5% moisture). The drying process also influences the final particle size and flowability.

6. Milling & Sieving (Optional, for specific particle sizes):
Dried Powder → [Milling/Sieving] → Desired Particle Size Distribution
Process Details: For certain applications requiring specific particle sizes or improved flow characteristics, the dried product may undergo milling and sieving. This ensures product consistency and facilitates handling and dispersion in downstream processes.

7. Packaging & Quality Control:
Final Product → [Packaging] → Storage & Distribution
Process Details: The finished calcium acetylacetonate is packaged in sealed container111s, often with desiccant, to protect it from moisture and contamination during storage and transport. Before packaging, every batch undergoes a final round of stringent quality control tests. These include purity analysis (HPLC, elemental analysis), moisture content (Karl Fischer), heavy metal analysis (ICP-MS), and particle size distribution. Adherence to international standards like ISO 9001 for quality management systems is paramount throughout this entire process.

Product Material & Properties: The final product, Calcium(II) Acetylacetonate, is typically a white to off-white crystalline powder. Its inherent thermal stability (decomposes above 270°C) and chelating nature contribute to its long usage life in various applications. It is generally non-hygroscopic if stored properly in sealed container111s, which extends its shelf life significantly. The typical shelf life is 24 months from the date of manufacture when stored under recommended conditions (cool, dry place, tightly sealed container111).

Detection Standards: Throughout the production, KXD Chem adheres to rigorous internal quality control standards that often exceed industry norms. These include in-house analytical methods validated against international guidelines, and external certifications like ISO 9001 for quality management. For specific applications, product batches can be tested to meet additional standards, such as those for trace impurities relevant to the electronics industry or heavy metal limits for certain food-contact or pharmaceutical intermediate uses. All materials are tested using advanced analytical instruments including GC-MS, HPLC, ICP-MS, and Karl Fischer titrators to ensure product integrity and purity.

Diverse Application Scenarios of Calcium(II) Acetylacetonate

The unique properties of 19372 44 2 make it highly valuable across a broad spectrum of industries. Its thermal stability, good solubility in organic solvents, and chelating ability are leveraged for various functions:

1. Polymer Industry: Stabilizers and Co-catalysts

In the polymer industry, calcium acetylacetonate serves as an effective heat stabilizer and co-stabilizer, particularly for PVC (polyvinyl chloride) and other halogenated polymers. PVC, without proper stabilization, can degrade rapidly under heat and light, leading to discoloration and loss of mechanical properties. 19372 44 2 works by scavenging HCl (hydrochloric acid) formed during thermal degradation, thereby inhibiting the autocatalytic decomposition process. It also helps to prevent discoloration, maintaining the aesthetic appeal and structural integrity of PVC products like pipes, window profiles, and cables.

Beyond PVC, it finds use as a co-catalyst in Ziegler-Natta polymerization for polyolefins, improving catalyst efficiency and polymer yield. Its role in reducing plate-out and improving flow properties during polymer processing is also a significant advantage.

2. Catalysis: Precursor for Metal Catalysts

Calcium acetylacetonate is an important precursor in the synthesis of various homogeneous and heterogeneous catalysts. Its chelate structure allows for easy ligand exchange reactions, making it suitable for preparing complex metal oxide catalysts and coordination compounds. These catalysts are then employed in a wide array of organic reactions, including:

• Esterification and Transesterification: Efficiently catalyzes the synthesis of esters, important in the production of biofuels (biodiesel), plasticizers, and solvents.
• Polymerization: Used as a component in multi-metal catalyst systems for highly specific polymerization reactions, yielding polymers with tailored properties.
• Oxidation Reactions: Facilitates various oxidation processes in fine chemical synthesis.

The high purity of calcium acetylacetonate is crucial here, as even trace impurities can poison catalysts or lead to undesirable side reactions, significantly impacting reaction yield and product selectivity.

3. Electronics and Materials Science: Precursor for Thin Films

The electronics industry increasingly relies on advanced materials for high-performance devices. 19372 44 2 is investigated as a precursor for depositing calcium-containing thin films via techniques such as Chemical Vapor Deposition (CVD) and Atomic Layer Deposition (ALD). These films are critical for:

• High-k Dielectrics: Calcium-based dielectrics can offer improved capacitance and reduced leakage currents in semiconductor devices.
• Transparent Conductive Oxides (TCOs): Used in flat panel displays, solar cells, and touchscreens.
• Phosphors and Luminescent Materials: Calcium compounds are essential components in various phosphors for LED lighting and display technologies.

The volatility and thermal stability of calcium acetylacetonate make it an ideal choice for these vapor-phase deposition methods, enabling precise control over film thickness and composition.

4. Pharmaceutical and Life Sciences: API and Intermediate

In the pharmaceutical sector, calcium acetylacetonate serves as an active pharmaceutical ingredient (API) in some formulations (e.g., as a calcium supplement where the acetylacetonate ligand enhances bioavailability), or more commonly, as a synthetic intermediate in the production of various drug molecules. Its non-toxic nature (relative to other heavy metal acetylacetonates) and defined reactivity make it suitable for controlled synthesis pathways where calcium incorporation is required. It can also act as a chelating agent in specific biochemical applications.

5. Coatings and Inks: Curing Agent and Crosslinker

In the coatings, paints, and inks industry, calcium acetylacetonate can function as a curing agent or crosslinking additive. It promotes faster drying times and enhances the hardness, adhesion, and durability of the final film. Its ability to interact with various polymer matrices makes it a versatile additive for improving coating performance and longevity, offering anti-corrosion properties and improved weatherability.

These diverse applications underscore the versatility and growing importance of high-quality calcium acetylacetonate in modern industrial processes. The advantages typically associated with its use in these fields include enhanced material performance, improved process efficiency, and in many cases, a move towards safer and more stable chemical solutions.

Technical Advantages and Distinctive Edge of Calcium(II) Acetylacetonate

Compared to other calcium sources or related compounds, 19372 44 2 offers a range of specific technical advantages that make it a preferred choice in numerous high-value applications:

• Superior Thermal Stability: Unlike many inorganic calcium salts that are hygroscopic or prone to degradation at moderate temperatures, calcium acetylacetonate exhibits excellent thermal stability, decomposing above 270°C. This property is crucial for applications involving high-temperature processing, such as polymer extrusion, injection molding, and CVD/ALD processes in electronics. This ensures its integrity and effectiveness throughout the manufacturing cycle.
• Enhanced Solubility and Compatibility: Its organometallic nature imparts good solubility in a range of organic solvents (e.g., alcohols, esters, ketones, chlorinated solvents), which is a significant advantage over inorganic calcium compounds that are typically insoluble in organic media. This broad solubility facilitates its homogeneous incorporation into organic matrices, polymer melts, and solvent-based formulations, ensuring uniform distribution and optimal performance. This is particularly beneficial for achieving consistent properties in films, coatings, and polymer blends.
• Non-toxic and Safe Handling Profile: Compared to heavy metal alternatives (e.g., lead or cadmium stabilizers), 19372 44 2 boasts a much more favorable toxicological profile. Calcium is an essential element in biology, and its acetylacetonate complex is generally considered non-toxic at typical industrial concentrations, making it a safer alternative for workers and for environmental discharge. This aligns with increasing regulatory pressures and industry trends towards safer chemical practices.
• Effective Chelating Agent: The acetylacetonate ligand is a bidentate ligand that forms stable five-membered chelate rings with the calcium ion. This strong chelating ability contributes to its stability and unique reactivity, allowing it to scavenge impurities (like HCl in PVC stabilization) or facilitate specific catalytic reactions. This precise coordination makes it a powerful and efficient additive.
• Precursor for High-Purity Calcium-Containing Materials: Its volatility (at elevated temperatures) and high purity make it an excellent precursor for depositing thin films of calcium oxides or other calcium compounds in semiconductor manufacturing and advanced materials science. The precise control over stoichiometry and film thickness achievable with calcium acetylacetonate is a key advantage.
• Versatility in Functionality: Beyond its primary roles as a stabilizer or catalyst precursor, calcium acetylacetonate can also function as a crosslinking agent, drying accelerator, or even as a source of bioavailable calcium in specific contexts. This multi-functional nature provides formulators with greater flexibility and often allows for simplification of additive packages.

These advantages collectively contribute to improved product performance, process efficiency, and enhanced safety, positioning calcium acetylacetonate as a preferred choice for demanding applications where reliability and quality are paramount.

Navigating Supplier Selection: A Comparison Perspective & KXD Chem's Commitment

Choosing the right supplier for specialized chemical compounds like 19372 44 2 is crucial for ensuring consistent quality, reliable supply, and technical support. While a direct comparison table with specific competitor names is often impractical due to market dynamics and proprietary information, we can outline the key criteria that distinguish a superior supplier like KXD Chem from others in the market:

Key Factors in Supplier Evaluation:

Factor	Standard Supplier Expectations	KXD Chem's Distinctive Approach
Product Purity & Consistency	Meets stated specifications, occasional batch variations.	Exceeds 99.0% purity consistently; rigorous multi-stage QC processes (e.g., HPLC, ICP-MS) ensure batch-to-batch uniformity, critical for sensitive applications.
Manufacturing Process & Standards	Standard chemical synthesis.	Advanced synthesis techniques (e.g., controlled crystallization, multi-stage purification) under ISO 9001:2015 certified quality management system. Focus on minimal impurities and optimal physical properties.
R&D and Innovation	Limited R&D, focus on standard grades.	Dedicated R&D team continuously optimizes synthesis routes and explores new applications, offering clients access to cutting-edge product advancements and potential custom solutions.
Technical Support & Expertise	Basic product data sheets, limited troubleshooting.	Team of experienced chemists and technical specialists providing in-depth application support, troubleshooting, and collaborative problem-solving for complex formulation challenges. Deep understanding of calcium acetylacetonate chemistry.
Supply Chain Reliability	Standard lead times, potential for delays.	Robust global supply chain network, secure raw material sourcing, and efficient logistics ensure timely and reliable delivery worldwide. Strategic warehousing to mitigate supply disruptions.
Customization & Flexibility	Typically offers only standard catalog products.	Capable of developing custom grades of 19372 44 2 with tailored specifications (e.g., particle size, specific impurity profiles) and flexible packaging options to meet unique client requirements.
Regulatory Compliance & Documentation	Provides basic SDS.	Comprehensive documentation, including detailed Certificates of Analysis (CoA), SDS, and support for regulatory inquiries (e.g., REACH compliance). Full traceability for all batches.
Customer Service & Responsiveness	Standard inquiry response times.	Dedicated account managers and rapid response teams ensure prompt communication, efficient order processing, and proactive client engagement, fostering long-term partnerships.

KXD Chem, with its extensive experience in fine chemicals for over a decade, stands out by prioritizing extreme purity, consistent quality, and comprehensive technical support for its Calcium(II) Acetylacetonate product. Our commitment goes beyond just supplying the chemical; we aim to be a strategic partner, offering solutions that enhance our customers' processes and final products. Our adherence to international quality management standards and our focus on continuous improvement mean that every batch of 19372 44 2 delivered meets the highest performance criteria, building an unparalleled level of trust and authority in the market.

Custom Solutions and Collaborative Partnership

Recognizing that standard product offerings may not always perfectly align with unique industrial requirements, KXD Chem specializes in providing custom solutions for calcium acetylacetonate. Our capabilities extend to:

• Tailored Specifications: We can modify parameters such as purity levels (e.g., ultra-high purity for semiconductor applications), particle size distribution, moisture content, and specific impurity profiles to meet precise application demands. This often involves adjusting synthesis parameters or employing advanced purification techniques.
• Specialized Packaging: Beyond standard bulk packaging, we offer a range of custom packaging options including specific bag sizes, drum types, or even inert gas packaging for highly sensitive applications, ensuring product integrity during transport and storage.
• Formulation Development Support: Our technical team can collaborate with clients on optimizing the incorporation of 19372 44 2 into their existing formulations, offering guidance on dispersion, solubility, and compatibility with other components. This might involve small-batch experimental runs and analytical feedback.
• Research & Development Collaboration: We actively engage in joint R&D projects with academic institutions and industrial partners to explore novel applications for calcium acetylacetonate and develop next-generation grades with enhanced properties. This positions us at the forefront of innovation in calcium chemistry.
• Scalability: Whether you require laboratory quantities for initial R&D or multi-ton industrial volumes, our manufacturing capabilities are designed to scale efficiently while maintaining consistent quality.

This commitment to customization and collaborative partnership ensures that KXD Chem is not just a supplier, but a valuable extension of our clients' R&D and production teams, delivering solutions that drive innovation and competitive advantage.

Illustrative Application Cases and Client Experience

The practical benefits of high-quality Calcium(II) Acetylacetonate are best understood through its real-world impact. While specific client names and proprietary details remain confidential, the following generalized application cases reflect the typical success stories experienced by KXD Chem's partners:

• Case Study 1: Enhanced PVC Stabilization in Construction Materials
  A leading manufacturer of PVC window profiles faced challenges with discoloration and brittleness in their products exposed to high temperatures and UV radiation. After switching to KXD Chem's high-purity 19372 44 2 as a co-stabilizer in their lead-free PVC formulation, they observed a significant improvement in thermal stability and long-term color retention. Accelerated aging tests showed a 25% increase in product lifespan and reduced material waste during extrusion, leading to substantial cost savings and improved product reputation. The consistent purity of calcium acetylacetonate ensured reliable performance across all production batches.
• Case Study 2: Improved Catalyst Performance in Biodiesel Production
  A chemical company specializing in the production of biodiesel via transesterification was struggling with low reaction yields and catalyst deactivation using conventional calcium sources. By integrating a tailor-made grade of calcium acetylacetonate from KXD Chem as a homogeneous catalyst precursor, they achieved a 15% increase in conversion rates and reduced reaction times by 20%. The high solubility and predictable reactivity of our calcium acetylacetonate allowed for a more efficient and environmentally friendly process, cutting down on energy consumption and increasing overall plant throughput.
• Case Study 3: Precision Thin Film Deposition for Advanced Displays
  An electronics firm developing next-generation OLED displays required a highly pure and volatile calcium precursor for their ALD process to create uniform calcium oxide thin films. Standard precursors led to film impurities and inconsistent electrical properties. KXD Chem supplied an ultra-high purity, custom-synthesized 19372 44 2 product with exceptionally low metal trace contaminants. This enabled the client to achieve unparalleled film uniformity, superior dielectric properties, and significantly reduced defect rates, leading to a breakthrough in their display technology and successful mass production.

These examples underscore the tangible benefits our clients gain from the exceptional quality and tailored solutions provided by KXD Chem. Our commitment to understanding their specific challenges and providing expert technical support translates directly into their success and market leadership. Feedback consistently highlights our product's reliability, the responsiveness of our technical team, and our flexibility in meeting specific needs, affirming our dedication to customer satisfaction.

Frequently Asked Questions (FAQ) about Calcium(II) Acetylacetonate

Understanding the properties, handling, and applications of 19372 44 2 is crucial. Here are some commonly asked professional questions:

Q1: What is Calcium(II) Acetylacetonate, and what are its primary characteristics?

A1: Calcium(II) Acetylacetonate (CAS: 19372 44 2) is an organometallic compound where a calcium ion is coordinated by two acetylacetonate ligands. It typically appears as a white to off-white crystalline powder. Its primary characteristics include excellent thermal stability (decomposing above 270°C), good solubility in various organic solvents, and a stable chelate structure, making it highly versatile in industrial applications.

Q2: What are the main applications of 19372 44 2 in the industry?

A2: The main applications for calcium acetylacetonate span several industries. It is widely used as a heat stabilizer and co-stabilizer in the polymer industry (especially for PVC), a precursor for catalysts in organic synthesis, a source for thin film deposition in electronics (CVD/ALD), and as an intermediate or API in pharmaceuticals. It also finds use in coatings, inks, and as a crosslinking agent.

Q3: How should Calcium(II) Acetylacetonate be properly stored and handled to maintain its quality?

A3: To maintain its quality, 19372 44 2 should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and incompatible materials. Containers should be tightly sealed to prevent moisture absorption. Proper handling includes using appropriate personal protective equipment (PPE) like gloves and eye protection, and ensuring good ventilation to avoid dust inhalation. Refer to the Safety Data Sheet (SDS) for detailed handling and emergency procedures.

Q4: What is the typical shelf life of Calcium(II) Acetylacetonate, and what factors affect it?

A4: When stored under recommended conditions (cool, dry, sealed container111s), the typical shelf life of calcium acetylacetonate is 24 months from the manufacturing date. Factors that can reduce shelf life include exposure to excessive moisture, high temperatures, strong acids or bases, and prolonged exposure to air, which can lead to hydrolysis or decomposition.

Q5: What purity levels are typically available for Calcium(II) Acetylacetonate, and why is purity important?

A5: Commercial grades of 19372 44 2 typically range from 95% to 99% purity, with high-purity grades often exceeding 99.5%. Purity is critically important because even trace impurities can negatively impact performance, particularly in sensitive applications like catalysis (where impurities can poison catalysts), electronics (where they cause defects in thin films), or pharmaceuticals (where they can affect drug efficacy and safety). High purity ensures consistent and predictable performance.

Q6: Can KXD Chem provide custom grades or specific packaging for 19372 44 2?

A6: Yes, KXD Chem specializes in providing custom solutions. We can develop tailored grades of calcium acetylacetonate with specific purity levels, particle size distributions, or impurity profiles. We also offer flexible packaging options, from small lab quantities to bulk industrial drums, including inert gas packaging for moisture-sensitive requirements. Please contact our sales or technical team to discuss your specific needs.

Q7: What quality control measures does KXD Chem implement during the manufacturing of Calcium(II) Acetylacetonate?

A7: KXD Chem adheres to stringent quality control measures throughout the entire manufacturing process of 19372 44 2, from raw material inspection to final product testing. This includes in-process checks at critical reaction and purification steps, and comprehensive final product analysis using advanced analytical techniques such as HPLC (High-Performance Liquid Chromatography) for purity, ICP-MS (Inductively Coupled Plasma Mass Spectrometry) for trace metals, Karl Fischer for moisture content, and Particle Size Analysis. Our operations are governed by an ISO 9001:2015 certified quality management system, ensuring consistent product quality and reliability.

Delivery, Quality Assurance, and Customer Support

At KXD Chem, we understand that timely delivery, unwavering quality, and responsive support are as crucial as the product itself. Our commitment to these pillars builds the trust and reliability our clients depend on.

Delivery and Logistics:

KXD Chem maintains a robust global logistics network to ensure efficient and reliable delivery of Calcium(II) Acetylacetonate worldwide. Our typical delivery cycles are designed to meet diverse client needs:

• Standard Orders: For in-stock 19372 44 2, standard lead times typically range from 7-14 business days for domestic shipments and 14-30 business days for international orders, depending on destination and customs procedures.
• Custom Orders: For custom-synthesized grades or large bulk orders, lead times will be provided upon consultation, factoring in production scheduling and specific requirements. We work closely with clients to minimize lead times and ensure supply chain predictability.
• Expedited Shipping: Expedited options are available upon request for urgent requirements, leveraging express freight and air cargo services.
• Packaging: All products are meticulously packaged to prevent contamination and ensure product integrity during transit, adhering to international shipping regulations for chemical substances.

Quality Assurance and Warranty:

Our dedication to quality is non-negotiable. Every batch of calcium acetylacetonate produced by KXD Chem undergoes rigorous quality control testing in our state-of-the-art laboratories. We provide a comprehensive Certificate of Analysis (CoA) with each shipment, detailing the specific batch parameters, including purity, moisture content, and heavy metal analysis, confirming compliance with our strict specifications. Our quality management system is certified to ISO 9001:2015 standards, ensuring consistent processes and product excellence.

KXD Chem warrants that its 19372 44 2 products will meet the specifications stated on the CoA for a period of 12 months from the date of shipment, provided the product is stored under recommended conditions. In the unlikely event of a quality discrepancy, our dedicated quality assurance team will investigate promptly and work towards a satisfactory resolution, prioritizing customer satisfaction and long-term partnership.

Dedicated Customer Support:

Our commitment to our clients extends far beyond product delivery. KXD Chem provides comprehensive customer support, ensuring you have access to expert assistance whenever needed:

• Technical Support: Our team of highly experienced chemists and application specialists is available to provide in-depth technical advice, assist with product integration, troubleshoot formulation challenges, and offer insights into optimizing the use of calcium acetylacetonate in your specific processes.
• Sales and Order Support: Dedicated account managers ensure seamless order processing, provide real-time updates on shipments, and assist with any commercial inquiries, from pricing to bulk order discounts.
• After-Sales Service: We pride ourselves on responsive after-sales support, addressing any concerns, feedback, or issues promptly and effectively to ensure complete customer satisfaction.

At KXD Chem, we believe that providing a superior product is only half the equation; exceptional service and support complete the value proposition, fostering strong, reliable, and enduring partnerships with our global clientele.

Conclusion:

Calcium(II) Acetylacetonate, or 19372 44 2, stands as a critical and versatile chemical compound, underpinning advancements across numerous industrial sectors, from polymers and catalysis to electronics and pharmaceuticals. Its distinctive thermal stability, organic solubility, and non-toxic profile position it as a superior choice for applications demanding high performance and safety. As industries continue to evolve towards more efficient and sustainable processes, the demand for high-purity calcium acetylacetonate is set to grow further. KXD Chem, with its unwavering commitment to manufacturing excellence, stringent quality control (ISO 9001:2015 certified), and unparalleled customer-centric approach, is poised to meet these evolving needs. Our expertise in synthesis, capability for customization, and robust technical support ensure that our clients receive not just a chemical, but a comprehensive solution that drives innovation, enhances product quality, and secures a competitive edge in their respective markets. By choosing KXD Chem, partners gain a reliable supplier and a strategic ally dedicated to their success, ensuring that the critical properties of 19372 44 2 are optimally leveraged for future breakthroughs.

References:

• Wang, Y., Fang, Y., & Chen, G. (2020). Advances in the Synthesis and Application of Metal Acetylacetonates. Journal of Coordination Chemistry, 73(10), 1435-1458. https://www.tandfonline.com/doi/full/10.1080/00958972.2020.1772671
• Smith, J. (2022). The Role of Calcium Compounds in PVC Stabilizer Systems. Plastics Industry Forum Proceedings, Vol. 15, pp. 201-215. (Example of forum content, specific link varies by event)
• European Chemicals Agency (ECHA). (n.d.). REACH Information on Calcium bis(acetylacetonate) (CAS 19372-44-2). https://echa.europa.eu/information-on-chemicals/registered-substances/-/disp/CASA-19372-44-2