• 1. Electric dipole moments and molecular conformations of benzophenones, benzils, benzhydrols, and benzoins
  C. W. N. Cumper,A. P. Thurston J. Chem. Soc. Perkin Trans. 2 1972 106
• 2. Electric dipole moments and molecular conformations of benzophenones, benzils, benzhydrols, and benzoins
  C. W. N. Cumper,A. P. Thurston J. Chem. Soc. Perkin Trans. 2 1972 106

• Solvents and Organic Chemicals Organic Compounds Benzenoids Benzene and substituted derivatives Benzophenones

Bis(2-chlorophenyl)methanone (CAS 5293-97-0): Properties, Applications, and Market Insights

Bis(2-chlorophenyl)methanone (CAS 5293-97-0), also known as 2,2'-dichlorobenzophenone, is an organic compound belonging to the benzophenone derivatives family. This compound has garnered significant attention in recent years due to its versatile applications in pharmaceuticals, agrochemicals, and specialty chemicals. With the increasing demand for high-performance intermediates in chemical synthesis, Bis(2-chlorophenyl)methanone has emerged as a key building block for various industrial processes.

The molecular structure of Bis(2-chlorophenyl)methanone features two chlorophenyl groups attached to a central carbonyl group, contributing to its unique chemical reactivity. Researchers have explored its potential as a precursor in the synthesis of UV absorbers, pharmaceutical intermediates, and liquid crystal materials. Recent studies published in the Journal of Organic Chemistry highlight its role in developing novel heterocyclic compounds with potential biological activities.

In the pharmaceutical industry, Bis(2-chlorophenyl)methanone serves as a crucial intermediate for drug discovery programs. Its structural features make it valuable for creating small molecule therapeutics targeting various diseases. The compound's stability under different pH conditions and its compatibility with common organic solvents have made it particularly useful in medicinal chemistry applications. Current research trends focus on optimizing its synthetic routes to improve yield and purity for GMP-grade production.

The agrochemical sector utilizes Bis(2-chlorophenyl)methanone in the development of crop protection agents and pesticide formulations. Its chlorinated aromatic structure contributes to the biological activity of several agricultural chemicals, particularly those designed for pest control. Manufacturers are increasingly adopting green chemistry principles in the production of this compound, responding to the growing demand for environmentally friendly chemical processes.

From a market perspective, the global demand for Bis(2-chlorophenyl)methanone has shown steady growth, driven by expanding applications in specialty chemicals and advanced materials. Market analysts project a compound annual growth rate (CAGR) of 5-7% over the next five years, with Asia-Pacific emerging as the fastest-growing region. This growth aligns with increasing investments in pharmaceutical R&D and agrochemical innovation across developing economies.

Quality control standards for Bis(2-chlorophenyl)methanone typically require purity levels above 98%, with strict specifications for heavy metal content and residual solvents. Leading manufacturers employ advanced analytical techniques such as HPLC and GC-MS to ensure product consistency. The compound is generally supplied as a white to off-white crystalline powder with characteristic physical properties that make it suitable for various industrial applications.

Recent technological advancements have focused on improving the synthetic methodology for Bis(2-chlorophenyl)methanone. Novel catalytic systems and continuous flow chemistry approaches have demonstrated potential for enhancing production efficiency while reducing environmental impact. These developments address key industry challenges related to process optimization and sustainability, making the compound more accessible to end-users across different sectors.

Storage and handling recommendations for Bis(2-chlorophenyl)methanone emphasize protection from moisture and direct sunlight. The compound exhibits good stability under normal storage conditions, typically remaining stable for extended periods when properly packaged. Industrial users should follow standard chemical safety protocols when working with this material, including appropriate personal protective equipment and ventilation systems.

The future outlook for Bis(2-chlorophenyl)methanone appears promising, with ongoing research exploring its potential in material science applications. Scientists are investigating its use in polymer additives and electronic materials, particularly for applications requiring specific optical or electronic properties. As industries continue to seek high-performance chemical intermediates, this compound is expected to maintain its relevance in various technological fields.

For researchers and industry professionals seeking detailed technical information about Bis(2-chlorophenyl)methanone, numerous scientific publications and patent documents are available through major chemical databases. These resources provide valuable insights into the compound's synthesis, characterization, and potential applications across different sectors of the chemical industry.

• 50609-23-9((2,6-Dichlorophenyl)(phenyl)methanone)
• 5162-03-8(2-Chlorobenzophenone)
• 16611-67-9(2,5-Dichlorobenzophenone)
• 19811-05-3(2,4-Dichlorobenzophenone)
• 82520-40-9((2-Chlorophenyl)(4-ethylphenyl)methanone)
• 77008-58-3((2-Chlorophenyl)(3-chlorophenyl)methanone)
• 85-29-0(2,4'-Dichlorobenzophenone)
• 25187-06-8(Methanone,(2-chlorophenyl)(2,5-dichlorophenyl)-)
• 25187-09-1(Methanone,bis(2,5-dichlorophenyl)-)
• 131822-46-3(2-Chloro-3'-methylbenzophenone)