Used HARVARD 11 Plus AD #9259533 for sale

HARVARD 11 Plus AD is a lab equipment and accessory developed by HARVARD Bioscience. The comprehensive equipment is designed to reduce the time and effort required for developing and running high-throughput high precision cell-based assays. The system is based on a 11 well microplate with a built-in air-driven piston mechanism. This mechanized unit is designed for maximum precision and accuracy when running cell-based assays. The HARVAD 11 Plus AD machine is a versatile, versatile, accurate, and user-friendly tool designed for research and development. Its built-in air-driven pistons reduce cycle time and allow for precise control over well-to-well operational parameters. The customizable microplate depths and flow rates further enhance the asset's performance. The microplate features a 3-channel venting model to both apply and control the applied pressure. The equipment also features an automated mixing feature for easy mixing and loading of samples. Additionally, the system can be integrated with a range of other fourth-party instruments, such as commercial detector systems, evaporation systems, centrifuges, incubators, and scanners. The HARVAD HARVARD 11 Plus AD unit offers precise, repeatable, and reproducible control over the pressure and rate of flow to deliver uniform performance and long-term reliability. Its automated piston operation helps ensure uniformity across the microplate. By using external pressure sensors and triggers, the machine can also be used for culturing cells over longer periods of time without user intervention. Additionally, the tool can be configured for a variety of reagent dispensing modes, such as separate cocktails, concentrated solutions, and pre-blended mixtures. The HARVAD 11 Plus AD Asset is a critical piece of lab equipment for cell-based assays. It offers reliable, repeatable, and precise performance in a straightforward yet highly versatile design that can be readily adapted for a variety of experiments. By reducing cycle times and ensuring uniformity and accuracy, the model can become a cost-effective and operationally efficient tool for a wide range of laboratories.