Advancing Lab Automation: Exploring the Benefits of 96-Well Fully Skirted Plates

 In the world of laboratory automation, finding solutions that optimize efficiency and accuracy is critical. With the advent of the 96-well fully skirted plate, researchers and scientists have unlocked the potential of a new level of automation. These plates offer a range of features that enhance analytical performance, sample safety, and seamless integration with robotic systems. In this blog, we will delve into the details of the 96-well fully skirted plate and discuss its advantages for various laboratory applications.


Improve efficiency:
One of the outstanding advantages of 96-well fully skirted plates is their ability to maximize efficiency. The plates are designed to fit in a standard ANSI footprint and are stackable for automated systems, optimizing the use of valuable lab space. Researchers can now perform a greater number of assays simultaneously, significantly improving throughput, productivity, and cost-effectiveness.

Improve PCR efficiency:
The low profile of the 96-well fully skirted plate helps to minimize dead space and improve the efficiency of the polymerase chain reaction (PCR).  PCR is a key technique used to amplify DNA, and any variation in temperature within the plate may result in inconsistent amplification. The use of these plates ensures uniform heat transfer, reduces the possibility of temperature differences, and ultimately increases the reliability and accuracy of PCR results.

Enhanced robot handling:
For seamless integration with automated systems, the 96-well full skirt plate is offered as a superplate, which is four times more rigid. This critical feature ensures excellent robotic handling and minimizes the risk of accidents and errors during plate transfer. Automated equipment reliably moves, sorts and repositions plates, resulting in smoother operations and minimizing downtime.

Securely sealed without evaporation:
Raised edges around each well in the plate facilitate a secure seal against evaporation. This seal is critical when handling sensitive samples that require precise control of volume and environment. Researchers can rest easy knowing their valuable samples are protected from contamination and evaporation, ensuring consistent and reliable experimental results.

 Consistent Heat Transfer:
 By utilizing uniformly thin well walls, the 96-well full skirt provides maximum and consistent heat transfer between each well. This uniformity is critical for assays that require precise temperature control, such as thermal cycling, enzymatic reactions, and protein crystallization. The plate's efficient heat transfer capabilities enable reliable and reproducible results, reducing experimental bias and improving data quality.

Post time: Jun-25-2023