Date published: 2025-10-25

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Catalysis

Santa Cruz Biotechnology now offers a broad range of catalysis products for use in various applications. Catalysis involves substances known as catalysts that accelerate chemical reactions without being consumed in the process, playing a pivotal role in both industrial and laboratory settings. These catalysts are crucial in scientific research for their ability to facilitate complex chemical transformations efficiently and selectively. Researchers utilize catalysis products to explore reaction mechanisms, develop new synthetic pathways, and improve the sustainability of chemical processes by reducing energy consumption and waste generation. In the scientific community, catalysis is fundamental to advancements in organic synthesis, material science, and environmental chemistry. Catalysts enable the production of fine chemicals, polymers, and fuels, and they are essential in the study of green chemistry practices aimed at minimizing environmental impact. Catalysis products also support the development of innovative technologies such as renewable energy systems and advanced materials with specific properties. By providing a comprehensive selection of high-quality catalysis products, Santa Cruz Biotechnology empowers scientists to push the boundaries of chemical research, leading to the discovery of new reactions and the optimization of existing processes. These products facilitate precise control over reaction conditions, enhancing reproducibility and efficiency in experimental outcomes. View detailed information on our available catalysis products by clicking on the product name.

Items 481 to 481 of 481 total

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Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

CPhos

1160556-64-8sc-501600
100 mg
$300.00
(0)

CPhos is a notable catalyst characterized by its unique ability to stabilize transition states during chemical reactions. Its distinct ligand framework promotes strong metal coordination, enhancing reaction rates and selectivity. The compound exhibits remarkable electronic properties, allowing for efficient electron transfer processes. Additionally, CPhos can facilitate diverse reaction pathways, including cross-coupling and oxidation, by modulating the reactivity of metal centers, thus influencing overall reaction kinetics.