Whether you work in a lab or have even heard of a pipette before, it’s no secret that today’s technology is advancing at an incredible rate. This means that new tools and technologies are constantly emerging to make tasks easier, faster, and more efficient. One such example of this is pipettor controllers – the next generation of pipetting technology. In this blog post, we will explore how pipettor controllers are revolutionizing laboratories and what makes them so advanced compared to traditional pipettes. From their precision accuracy to their user-friendly design, these controllers are bringing digital transformation to the lab like never before.
Introducing the next generation of pipetting: pipettor controllers
Pipettor controllers are revolutionizing the lab by providing a more ergonomic and efficient way to pipette. By attaching the controller to the pipettor, users can operate the device with one hand, freeing up the other hand to perform other tasks. The pipettor controller also allows for greater control over the pipetting process, making it easier to achieve consistent results. Pipettor controllers are available in a variety of sizes and styles to suit different needs. Some models allow for programming of multiple protocols, while others offer simple one-button operation. Choose a model that best fits your application and start enjoying the benefits of this new technology!
How pipettor controllers work
Pipettor controllers are devices that help automate the process of pipetting, or transferring small amounts of liquid from one container to another. They typically consist of a base unit that houses the electronic components, and a detachable handpiece that holds the pipette itself. Pipettor controllers work by drawing liquid into the pipette with a vacuum pump, and then dispense it by releasing the vacuum. This process is controlled by an electronic controller, which can be programmed to perform various pipetting tasks automatically. Pipettor controllers can be used for a variety of applications, including serial dilutions, DNA/RNA extractions, cell culture media preparation, and more. They offer a number of advantages over traditional manual pipetting, including increased accuracy and precision, reduced user fatigue, and the ability to perform multiple tasks automatically. If you’re looking for a way to improve your laboratory’s efficiency and productivity, consider investing in a pipettor controller. As with any scientific tool, choosing the right pipettor controller for your lab depends on a variety of factors. The most important thing to consider is what type of experiments you will be running and how much volume you will be handling. Other important considerations include the number of channels you need, the speed and accuracy of the device, and the price. To help you choose the right pipettor controller for your lab, we’ve put together a few tips: Consider what type of experiments you’ll be running. If you plan on doing a lot of high-throughput work, you’ll need a device that can handle large volumes quickly and accurately. Think about the number of channels you need. If you only have a few samples to work with, a single-channel device may suffice.
