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Complete this fun activity to better understand the synthesis reaction, just relate each concept with its respective definition, in this activity you will have no time limit but BE CAREFUL you will have a limit of attempts. you only have 3 attempts.
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The quality and purity of starting materials and stable sources/vendors of those materials is key to successful, reproducible synthesis reactions and processes.
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A successful synthesis reaction maximizes the creation of desired molecules and minimizes byproduct molecules. A thorough understanding of reaction kinetics, mechanism, and effect of reaction variables are keys to successful synthesis reactions.
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In the pharmaceutical industry, most synthesis reactions run in batch mode. The physical configuration of EasyMax reactors are an improvement over the classic round bottom flask due to surface area and agitation efficiency considerations. Continuous flow processes are rapidly becoming more frequently used, and ReactIR technology accommodates the real-time analysis of continuous flow and batch syntheses.
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Though separation techniques are a mainstay for product isolation and purity, an understanding of reaction variables to reduce the presence of impurities that may be difficult to separate for product is important. By optimizing reaction variables, ReactIR with EasyMax aid impurity reduction. As important, a thorough understanding and control of crystallization via ParticleTrack and ParticleView technology is critical to ensuring purity and ease of isolating desired products.
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Commercially-important chemistry requires lab-to-plant protocols that provide optimized yield, acceptable impurity profiles, and safe operation. ReactIR advances reaction scale-up by elucidating the effects of reaction variables on overall synthesis performance. Reaction calorimetry ensures safe reactions from screening through scale-up to process by measuring heats of reaction. ReactIR in situ analytics minimizes exposure of scientists and technicians to toxic chemicals and potentially hazardous reactions by eliminating grab sampling for offline analysis. When offline analysis is required, EasySampler provides automated, in situ sampling and dilution of samples for HPLC, eliminating worker exposure.
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For example, nucleophilic and electrophilic addition and substitution reactions are broad reaction types that yield innumerable examples of synthesis reactions.
When two or more reactants combine to form a more complex molecule, the composition of the final reaction mixture is dependent on the conditions at which the reaction is carried out.
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A thorough understanding of reaction rates are crucial to ensure optimized product yield and minimum byproducts. Through data-rich experiments, ReactIR simplifies and speeds the measurement of kinetic factors in synthesis reactions.
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Since synthesis reactions are sensitive to reaction parameters, such as temperature, pressure, agitation rate, and dosing rate, precise and accurate control of these variables is crucial to the successful outcome. EasyMax chemical synthesis reactor provides automated parameter control, accuracy, and precision of reaction parameters.
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Many synthesis reactions are far more complex than the above reaction: A + B → C. For example, organic synthesis reactions may involve more than two different molecules, and mixtures of products can occur along with unreacted starting materials. Intermediate molecules may form that can lead to the formation of byproducts. In addition, depending on how the two colliding reactant molecules orient, both the desired product and byproducts may form - which may effect product purity.
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Synthesis reactions are reactions that occur when two different atoms or molecules interact to form a different molecule or compound. Most of the time, when a synthesis reaction occurs, energy is released and the reaction is exothermic. However, an endothermic outcome is also possible. Synthesis reactions are one of the major classes of chemical reactions, which include single displacement, double displacement, and combustion reactions.
Reaction Conditions
Factors Influencing Successful Synthesis Reactions
Reaction Kinetics
What is a Synthesis Reaction?
Reaction Equipment
Complex Synthesis Reactions
Product Isolation/Purity
Safety
There are various types of synthesis reactions
Quality of Reactants, Reagents, and Catalysts