Laboratory reactors are double jacket containers made from high-quality borosilicate glass that are designed for chemical reactions and experiments in a laboratory setting. These reactors come in various volumes are used in a wide range of laboratory applications, from basic research to large-scale production.
Uses of laboratory reactors:
Chemical synthesis: Reactors are widely used in chemical synthesis and are an essential tool for many chemical reactions. They can be used for mixing, heating, and cooling a wide range of chemicals, allowing researchers to create new compounds and materials.In many applications the reactor come with chiller to cool the process.
Biochemical research: Reactors are also used in biochemical research to study the behavior of biological molecules such as proteins and enzymes. By controlling the temperature and other environmental conditions inside the reactor, researchers can investigate the mechanisms of biochemical reactions and study the interactions between molecules.
Material science: Reactors are used in material science research to study the properties of materials such as polymers, composites, and ceramics. By subjecting these materials to controlled environmental conditions and chemical reactions inside the reactor, researchers can investigate their physical and chemical properties.
Process development: Reactors are often used in process development to optimize the production of chemical compounds or materials. By testing different reaction conditions and scaling up production in the reactor, researchers can determine the optimal conditions for producing large quantities of a specific product.
Features and advantages of laboratory glass reactors:
High chemical resistance: Laboratory glass reactors are made from borosilicate glass, which has a high resistance to chemical corrosion and can withstand a wide range of acidic and basic solutions.
High transparency: Glass reactors are highly transparent, allowing researchers to observe chemical reactions and monitor changes in real-time.
Temperature control: Glass reactors are equipped with heating and cooling systems that allow researchers to control the temperature of the reaction and prevent unwanted reactions or side reactions.
Easy to clean: Glass reactors are easy to clean and sterilize, making them ideal for use in sterile environments such as pharmaceutical production or biological research.
Customizable: Glass reactors can be customized to suit the needs of the experiment, with various sizes, shapes, and accessories available to meet specific requirements.