Alpaqua Engineering, LLC, founded in 2006, is a global provider of tools for accelerating genomic applications such as NGS, nucleic acid extraction and clean up, target capture, and molecular diagnostics. Our products include a line of innovative, high performance magnet plates built with proprietary magnet architecture and spring cushion technology.
Also available are aluminum tube blocks to help maintain temperature control, SBS /ANSI standard tube racks and the patented Alpillo Plate Cushion **that enables pipetting to the bottom of the plate without well occlusion**. Patented Spring Cushion Technology enables maximum sample retrieval without tip occlusion. Products designed to integrate to automation with ease and simplify multi-well, manual, bench-top experiments.
Olaf has worked for several leading companies in the industry, including Packard, CCS-Packard, Agencourt Bioscience, and Beckman Coulter.
Also available are aluminum tube blocks to help maintain temperature control, SBS /ANSI standard tube racks and the patented Alpillo Plate Cushion **that enables pipetting to the bottom of the plate without well occlusion**. Patented Spring Cushion Technology enables maximum sample retrieval without tip occlusion. Products designed to integrate to automation with ease and simplify multi-well, manual, bench-top experiments.
Olaf has worked for several leading companies in the industry, including Packard, CCS-Packard, Agencourt Bioscience, and Beckman Coulter.
Services
Employs strong ring magnets with unique slotted architecture for quality manual magnetic bead separation.
Compatible with most 96-well microplates and PCR strip tubes.
Slotted magnet architecture sequesters beads in two opposing arches allowing tip tracking down well walls during manual pipetting.
Keep pipetting the way you are used to.
Proprietary slotted ring magnets concentrate magnetic beads in opposing arches near the bottom of microplate wells.
This enables manual users to track pipet tips down the inside wall of the well.
Compatible with most 96-well microplates and PCR strip tubes.
Slotted magnet architecture sequesters beads in two opposing arches allowing tip tracking down well walls during manual pipetting.
Keep pipetting the way you are used to.
Proprietary slotted ring magnets concentrate magnetic beads in opposing arches near the bottom of microplate wells.
This enables manual users to track pipet tips down the inside wall of the well.
Used with 96-well PCR plates when low elution volumes are needed to ensure high product concentration.
This plate allows you to elute in as little as 8-10 l.
We are using this plate on our liquid handler for NGS purposes and works very well in our hands.
We were able to lower volumes and thus reduce costs without loss of quality and repetitiveness.
The LE magnet is on its way to being my favorite of the four different types I have to choose from in my lab.
I have had no issues using it with single and multichannel pipettes down to as little as 7.5uL elution volumes.
This plate allows you to elute in as little as 8-10 l.
We are using this plate on our liquid handler for NGS purposes and works very well in our hands.
We were able to lower volumes and thus reduce costs without loss of quality and repetitiveness.
The LE magnet is on its way to being my favorite of the four different types I have to choose from in my lab.
I have had no issues using it with single and multichannel pipettes down to as little as 7.5uL elution volumes.
Our Strongest 96-well magnet plate containing proprietary solid-core ring magnets yields the fastest magnetic bead separation with reaction volumes as large as 2 mL and elution in as little as 10 l.
Compatible with virtually all 96-well microplates.
Integrated Spring Cushion Technology enables optimum performance on robotic platforms.
Actually made quite a difference in the yield of our NGS libraries.
The ring formed by the magnet is lower on in the well, which facilitates the resuspension of the beads in the elution steps.
Compatible with virtually all 96-well microplates.
Integrated Spring Cushion Technology enables optimum performance on robotic platforms.
Actually made quite a difference in the yield of our NGS libraries.
The ring formed by the magnet is lower on in the well, which facilitates the resuspension of the beads in the elution steps.
Universal magnet plate that contains our strongest 96-well ring magnets and integrated Spring Cushion Technology.
Compatible with virtually any 96-well microplate and any liquid handling platform.
Our strongest ring magnets for up to 40% faster separation times, combined with universal microplate and liquid handler compatibility.
Pulls beads down in half the time of our other magnet plate.
The ringed shape of beads makes it super easy for automation to get down to the very bottom of the well.
Alpaqua microplates with integrated Spring Cushion Technology give way when tips come in contact with a well bottom, thus compensating for physical tolerances between labware and pipettors that can compromise precision aspiration.
Compatible with virtually any 96-well microplate and any liquid handling platform.
Our strongest ring magnets for up to 40% faster separation times, combined with universal microplate and liquid handler compatibility.
Pulls beads down in half the time of our other magnet plate.
The ringed shape of beads makes it super easy for automation to get down to the very bottom of the well.
Alpaqua microplates with integrated Spring Cushion Technology give way when tips come in contact with a well bottom, thus compensating for physical tolerances between labware and pipettors that can compromise precision aspiration.
24-well magnet plate with concentric NdFeB ring-based magnets and integrated Spring Cushion Technology for rapid bead separation in large volume samples.
The concentric NdFeB ring magnet design of the MagPlate 24 provides for rapid and efficient bead separation from larger sample volumes.
Unique ring magnet architecture enables rapid and efficient bead separation in sample volumes as large as 10 mL.
Magnetic beads are sequestered at the outer edges of each well providing for simplified removal of supernatants using automated platforms.
The concentric NdFeB ring magnet design of the MagPlate 24 provides for rapid and efficient bead separation from larger sample volumes.
Unique ring magnet architecture enables rapid and efficient bead separation in sample volumes as large as 10 mL.
Magnetic beads are sequestered at the outer edges of each well providing for simplified removal of supernatants using automated platforms.
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