CAPP Petri plates have been architected to provide the best microbial culture experience possible. These high-quality Petri plates assure the reliability that CAPP customers have come to rely on over the years.
These outstanding Petri dishes have been designed with valuable features that will benefit those who use them the most. Clinical laboratory researchers can now provide accurate diagnoses of patient infections using the new CAPP Petri plates.
Research scientists can also use these Petri dishes to make breakthrough discoveries that will improve our understanding of the natural world. Some of the standout features of the CAPP Petri plates are outlined below.
Superior-grade polystyrene Petri dishes
CAPP Petri dishes are made of premium-grade polystyrene, which provides industry-leading performance and reliability in a wide range of applications. CAPP polystyrene Petri dishes are independently verified for compliance with international standards to guarantee traceable quality.
This capability enables CAPP to provide bio-compliant polymer-based products, like CAPP Petri dishes, which are well-suited for use in biological assays. Consequently, CAPP's superior-grade polystyrene Petri dishes demonstrate exceptional biocompatibility, ensuring the success of microbial culture assays and other applications.
Petri plates with industry-leading quality control
In line with its continuous dedication to industry-leading quality control measures, CAPP ensures that its Petri plates are produced to exceptionally high standards within the confines of its contemporary facility. Every batch of Petri plates undergoes meticulous scrutiny by the CAPP quality control squad to guarantee alignment with the stringent quality protocols.
Furthermore, all Petri plates from CAPP come with an identifiable lot number, facilitating swift identification and rectification of occasional instances of non-compliance. Comprehensive details, including expiration dates and sterility information, are also incorporated for heightened transparency within each lot of CAPP Petri plates.
Petri dishes with excellent thermal and optical properties
CAPP Petri dishes are optimized for thermal performance and optical properties. Each Petri dish’s walls allow for consistent thermal transfer between the ambient air in an incubator and the microbes on the agar.
As a result, the culture environment within the Petri dish closely resembles the temperature set on the incubator.
After microbial cultures have successfully grown, the Petri dishes have excellent optical properties that make it easy for scientists to document growth. Whether it be streak plates, hemolysis types, or colony morphology, CAPP Petri dishes make microbiology exciting for everyone.
Space-saving Petri plates
Several modern microbiology laboratories have limited space, necessitating the use of space-saving Petri plates. CAPP Petri plates are designed to address this need, maximizing space without sacrificing performance. The luscious 90 mm diameter makes culturing easier and fits multiple plates on a wide range of incubator racks.
CAPP Petri plates can also be stacked on top of one another to maximize vertical space in incubators. When the incubator door is opened, the stacking design is ingeniously executed to reduce the risk of Petri plates falling over. The light weight of each Petri plate also reduces the risk of top-heavy stacks.
Petri dishes in simple packaging
CAPP Petri dishes have a simple and elegant design philosophy that is intended to minimize waste and reduce the stress of choosing among a broad range of options.
Each pack has either 10 or 20 Petri dishes with lids. For bulk orders, CAPP Petri dishes are supplied in two configurations (48 x 10, and 24 x 20). Through several internal tests, CAPP has optimized the number of Petri dishes per pack by accounting for the average media preparation volume.
This approach lets customers pick the packaging that suits their needs, whether big or small. This straightforward packaging also helps prevent contamination, promoting better aseptic technique.
Contaminant-free Petri plates
CAPPs recently renovated manufacturing facility is compliant with modern contaminant reduction protocols, allowing for the manufacture of Petri plates that are free of contaminants that may interfere with optimal microbial growth.
Each CAPP Petri plate is manufactured in a modern cleanroom facility for maximum elimination of unwanted contaminants. This meticulous process guarantees that CAPP Petri plates remain untainted by pyrogens, endotoxins, and other undesirable substances.
Through this approach to contamination-free manufacturing, CAPP Petri plates offer a stress-free experience in the realm of microbiology. Researchers and enthusiasts alike can thus dedicate less time to troubleshooting and instead fully embrace the journey of discovery facilitated by CAPP Petri plates.
Petri Dishes with optimized airflow
Most microbiology cultures are grown in aerobic or anaerobic conditions, requiring Petri dishes with optimized airflow.
CAPP Petri dishes are available in both vented and non-vented formats. The vented Petri dishes feature a raised-lip design that facilitates enhanced airflow, enabling air to pass through without compromising the integrity of the culture. These particular Petri plates are particularly advantageous for aerobic cultures, though they can be adapted to suit anaerobic workflows as well.
Non-vented Petri dishes curtail the movement of air between the dish and its lid, consequently limiting airflow potential. This characteristic renders non-vented Petri dishes highly suitable for anaerobic cultures while also excelling in preserving maximum moisture within the dish.