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Real-Time Monitoring of Enzyme-Catalyzed Reactions

Enzymes, as biocatalysts, are a suitable, environmentally friendly alternative to heavy metal industrial catalysts. The “Green Chemistry” nature of enzymes as catalysts is based on a number of characteristics. Enzymes are biodegradable and typically produced through fermentation of renewable feedstocks or easily mass produced through recombinant technologies. Enzymes also catalyze chemical reactions under mild temperature (20°C-40˚C) and pH conditions (pH 5-8), and perform well in aqueous environments. The chemical, petroleum, agriculture, polymer, electronics and pharmaceutical industries rely on catalysis to optimize their chemical processes. It is estimated that at least 90% of chemicals produced rely to some extent on catalysis. In recent years researchers have increasingly focused their attention on green chemistry, including catalysis. Examples of enzyme-catalyzed industrial-scale organic reactions include: Hydrolysis Oxidation Reduction Addition – Elimination Halogenation and Dehalogenation Transesterification This webinar reviews case studies from pharma, academia and the military, showing how in situ mid-IR was used to monitor the enzyme-catalyzed reactions in real time to enable researchers to understand reaction mechanisms, and determine kinetic parameters and reduce costs.

Type of Event: On-Demand Webinars
By appointment: Yes
Language: English

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q&more – the networking platform for quality excellence in lab and process

The q&more concept is to increase the visibility of recent research and innovative solutions, and support the exchange of knowledge. In the broad spectrum of subjects covered, the focus is on achieving maximum quality in highly innovative sectors. As a modern knowledge platform, q&more offers market participants one-of-a-kind networking opportunities. Cutting-edge research is presented by authors of international repute. Attractively presented in a high-quality context, and published in German and English, the original articles introduce new concepts and highlight unconventional solution strategies.

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