Based upon a standard microplate format the MaxiLute is fully compatible with automated liquid handling and robotic devices providing considerable productivity benefits
Porvair Sciences have available a range of innovative products offering significant productivity benefits in solid phase extraction (SPE), protein precipitation and combinatorial chemistry applications.
The MaxiLute is a novel 48-well solid phase extraction sample preparation microplate system that offers advantages for drug development, food and environmental laboratories currently using SPE cartridges to process large volumes of sample.
The MaxiLute offers the capability to process up to 200ml of sample in one go repeatedly and precisely.
Its unique design eliminates the mess associated with traditional manual SPE cartridge methods.
Developed in conjunction with a leading pharmaceutical company the Microlute has become the benchmark for high throughput sample preparation across a range of applications.
The innovative design of the Microlute offers all the advantages of automated and high throughput SPE or combinatorial chemistry sample preparation in a convenient microplate format capable of rapidly processing 96 samples in one go repeatedly and precisely.
For demanding LC/MS/MS bioanalysis assays the Microlute is used by many leading bioanalytical laboratories worldwide to provide high recoveries across a wide analyte solubility and concentration range.
Based on the industry standard Microlute the p3 combines the productivity enhancing features of a 96-well microplate system with a proprietary design avoiding the protein precipitation mess.
Incorporating a novel frit matrix and proprietary treatment, means that all the traditional sample breakthrough, clogging and waste problems associated with the Crash method of protein removal are eliminated.
Processing 96 samples simultaneously the p3 significantly improves productivity versus traditional protein precipitation techniques.
The novel design of the p3 is readily integrated into automated systems offering the possibility of further throughput gains.
The protocol used by the plate is little changed from the familiar protein precipitation method.
