Laboratory incubators offer a controlled, contaminant-free environment for protected, consistent work with cell as well as tissue cultures by regulating circumstances including temperature, humidity, and CO2. Microbiological incubators are utilized for the enlargement as well as storage of bacterial cultures.
More elaborate incubators may also include the capability to lower the temperature (via refrigeration), or the capability to control humidity or CO2 levels. This is vital in the cultivation of mammalian cells, where the relative humidity is typically >80% to avoid evaporation and a slightly acidic pH is achieved by managing a CO2 level of 5%.
Types as well as sizes abound, including dry bath incubators with single or dual blocks, biological oxygen demand (BOD) units perfect for insect or plant studies, hybridization ovens, shaking incubators, bioreactors as well as a broad diversity of laboratory test chambers. Finding the correct size for your particular application is an easy task, with sizes ranging from small tabletop units to room-size. Laboratory incubators are necessary for cell as well as tissue culture, biochemical and hematological studies, pharmaceutical work as well as food analysis.
Incubators serve a diversity of functions in a scientific lab. Incubators usually maintain a constant temperature, however extra features are often built in. Several incubators also control humidity. Shaking incubators incorporate movement to mix cultures. Gas incubators control the internal gas composition. Some incubators have a means of circulating the air inside of them to allow even distribution of temperatures. Several incubators built for laboratory use have a redundant power source, to ensure that power outages do not disrupt experiments. Incubators are made in a variety of sizes, from tabletop models, to warm rooms, which provide as incubators for large numbers of samples.
A CO2 incubator has an interior which is totally sealed off from the environment to allow the atmosphere inside the unit cannot be affected by external factors. To enable laboratory technicians to still view the samples during the expansion phase, most CO2 incubators feature a glass door as well as the regular door, which offers additional protection against contamination.
The interior is made of rust-resistant materials such as stainless steel as well as should have as few sharp edges as well as grooves as possible to avoid any places where stain could be hidden. In the sensitive field of cell cultivation in particular, just one single germ may ruin weeks of work.
CO2 incubators are most frequently utilized in medical research as well as the pharmaceutical industry. However, they also offer sterile conditions for cultivation in other fields where cells must grow in a totally germ-free environment.
Many life science laboratories universal perform membrane hybridizations with a hybridization incubator. Hybridization incubators, also recognized as hybridization ovens, offer defined temperature control, agitation as well as consistency throughout the incubator chamber.
A hybridization oven is ideal for sterile laboratory testing as well as where the integrity of the sample must be preserved while heating it to the exact temperature for the right period of time. These simple as well as versatile instruments are found in applications.