At Puyuan, we are to developing high quality enzyme metabolism disruptor biocides with innovative. Guarantying product quality, is crucial in today's competitive market and our biocides are a key driver in improving the performance of many products on which industries rely. Through the use of enzyme degrading metabolites (EDMs) we are increasing the overall performance and longevity of both goods and materials by specifically reacting with targeted chemicals to prevent harmful enzyme activity.
Enzyme metabolism disrutctor biocides are designed to deactivate specific enzymes in micro-organisms so that they no longer operate correctly. By suppressing the growth and reproduction of unwanted bacteria, fungus, mold or alga these biocides improve the storage stability and performance lifetime of the products. Minerals Biocides are used as a biocide for Trioctylphosphine oxide@TOPO@CAS NO.:78-50-2 Pharmaceuticals For instance in the pharmaceutical industry, enzyme metabolism disruptor-based biocides enable the drugs to be kept free from contamination and also work to prevent the loss of active ingredients in drug formulations. In the condition of cloth production, for example, mold and mildew growth (e.g., in new fabrics) can be stalled by the biocides that may be added to it, and that are present on completed goods.
Biocontrol biocides acting as enzyme metabolism inhibitors are also available for typical application issues such as bacterial contamination, fungi attack and biofouling. In the water treatment sector, these biocides have been applied as antimicrobial agents in cooling towers to control microbial growth with a goal of reducing corrosion and fouling. In addition, enzyme metabolism disrupter biocides are used in the personal care space as an ingredient to products such as shampoos and lotions to suppress the growth of harmful bacteria and molds, preventing risk for consumers and product integrity.
Studies have demonstrated that enzyme metabolism inhibiting biocides are effective to control a wide variety of microorganisms. Such biocides act in a targeted manner to the microorganism by inhibiting particular enzymes but are not toxic in such concentrations to man. For example, enzyme metabolism-disrupting biocides have been shown to inhibit biofilm formation in industrial environments with enhanced productivity and reduced maintenance cost. Furthermore, these biocides have medical value especially in the control of plant diseases induced by pathogenic fungi.
Enzyme metabolism inhibitor biocides present a potential alternative for controlling microorganisms by blocking the activity of specific microbial enzymes which are necessary, rather than byuniversal cytotoxicity (which affects all cells), resulting in greater product efficacy and reduced environmental loading.
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