Dichloroglyoxime (CAS 2038-44-0): Advanced Fungicide & Chemical Intermediate
Discover the power of Dichloroglyoxime for industrial sterilization and advanced chemical synthesis.
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Dichloroglyoxime
Dichloroglyoxime is a highly effective industrial fungicide and a crucial chemical intermediate. Its unique mechanism of action disrupts cellular processes in microorganisms, offering superior sterilization capabilities compared to conventional biocides. This makes it an invaluable asset in various industrial sectors requiring microbial control and in the synthesis of complex chemical structures.
- Leverage Dichloroglyoxime as a high efficiency industrial fungicide for robust microbial control in demanding environments.
- Utilize its capabilities in papermaking white water treatment to manage plasma generation and improve process efficiency.
- Employ Dichloroglyoxime as a versatile preservative for industrial detergents and other formulations requiring extended shelf life and stability.
- Explore its role as a key component in nitrogen heterocyclic synthesis, paving the way for novel compounds with diverse applications.
Key Advantages
Superior Sterilization Power
Dichloroglyoxime demonstrates a sterilization force ten times that of commonly used bromine fungicides, making it a more potent solution for industrial applications.
Broad Application Spectrum
Beyond papermaking, its efficacy extends to cooling water, lubricating oil, metalworking fluids, and more, positioning it as a key chemical intermediate.
Enabling Advanced Synthesis
As an important raw material for constructing high nitrogen heterocyclic compounds, it supports advancements in fields like catalysis and medicinal chemistry, contributing to anti-cancer research and antimicrobial agent intermediate development.
Key Applications
Papermaking
Effectively controls plasma generation in white water, enhancing paper production processes and product quality.
Industrial Preservation
Serves as a reliable preservative for a wide array of industrial products including detergents, cooling water systems, and metalworking fluids.
Chemical Synthesis
Acts as a vital intermediate for synthesizing complex nitrogen-rich heterocyclic compounds, supporting innovation in specialty chemicals and pharmaceuticals.
Research & Development
Investigated for potential in catalysis, materials science, and bioinorganic chemistry, including its role in anti-cancer research and as an antimicrobial agent intermediate.