Choosing the right automated liquid handling system is crucial for enhancing the accuracy, efficiency, and reproducibility of your laboratory workflows. Automated liquid handlers are essential for a variety of applications, including genomics, proteomics, drug discovery, and clinical diagnostics. This guide provides an overview of the different types of automated liquid handling systems, their technical specifications, and key features to consider, helping you balance price and performance in your selection.
Pipetting robots automate the process of liquid transfer using pipette tips. These systems are ideal for tasks such as PCR setup, serial dilutions, and plate reformatting. Pipetting robots are commonly used in genomics, cell biology, and drug discovery labs for their precision and efficiency in repetitive tasks.
Automated liquid handling workstations are versatile systems that can perform a range of tasks, from simple pipetting to complex assay assembly. They often come with integrated modules for mixing, heating, cooling, and shaking. Workstations are suitable for high-throughput screening, ELISA, and sample preparation.
Microplate dispensers are designed to dispense reagents, samples, or cells into microplates with high speed and accuracy. They are essential for high-throughput applications such as drug screening, biochemical assays, and genomic assays. These systems can handle various plate formats and volumes.
Liquid handling platforms are fully automated systems that can integrate with other laboratory instruments, such as incubators, plate readers, and robotic arms. They offer high flexibility and scalability, making them ideal for large-scale operations and complex workflows in pharmaceutical and biotech industries.
Specialized liquid handlers are designed for specific applications, such as nucleic acid extraction, library preparation, and cell culture automation. These systems are tailored to meet the unique requirements of specialized workflows, providing optimized performance and reliability.
Precision and accuracy in liquid handling are critical for ensuring reliable results. Look for systems that offer high pipetting precision, minimal cross-contamination, and consistent performance across different volumes.
Consider the flexibility of the system in terms of the types of tasks it can perform and its ability to adapt to different workflows. Scalability is also important if you anticipate increasing your throughput or expanding your applications in the future.
Ensure the liquid handling system can integrate with other laboratory instruments and software. Compatibility with existing equipment and laboratory information management systems (LIMS) can streamline workflows and improve overall efficiency.
A user-friendly interface with intuitive software is essential for ease of use and minimizing training time. Look for systems that offer programmable protocols, drag-and-drop method creation, and robust error-handling features.
Consider the ease of maintenance and the availability of technical support and training. Systems with minimal downtime, easy-to-replace components, and comprehensive support services can significantly enhance lab productivity.
Model |
Type |
Price |
Automated Liquid Handler |
$119,995.00 (new) |
|
Automated Liquid Handler |
$90,000.00 (used) |
|
Automated Liquid Handler |
Please Inquire (used) |
|
Automated Liquid Handler |
$55,000.00 (used) |
|
Automated Liquid Handler |
Please Inquire |
|
Automated Workstation |
Please Inquire (refurbished) |
|
Automated Liquid Handler |
Please Inquire |
|
Automated Liquid Handler |
Please Inquire (new) |
|
Automated Liquid Handler |
Please Inquire |
|
Automated Liquid Handler |
$35,000.00 (used) |