High throughput extraction and precise separation of pipettes using a pipette workstation

High throughput extraction and precise separation of pipettes using a pipette workstation

Main Features

The liquid transfer workstation achieves high efficiency and precision in liquid processing by integrating automation control, precision mechanical design, and intelligent software systems. Its core features include high-precision pipetting ability, with some devices supporting a wide range of 0.5 μ L to 1250 μ L, and using a Xianjin hydraulic system and electronic control algorithm to ensure accuracy and repeatability of microliter level operations. At the same time, automated process management significantly reduces manual intervention, and users can complete complex tasks such as pipetting, dilution, and separation through program presets. Combined with real-time data monitoring and recording functions, it enhances experimental traceability.

Efficient high-throughput processing

The device supports high-throughput carriers such as 96 well plates and 384 well plates, with a processing time of as low as 6 seconds for a single 96 well plate, significantly reducing the experimental cycle by 13 seconds. For example, in scenarios such as ELISA reactions and PCR pre-processing, hundreds of samples can be processed simultaneously, which is tens of times more efficient than traditional manual operations.

Convenient and flexible operation
Some models are designed with ergonomics in mind, eliminating the need for complex programming and allowing beginners to quickly get started; Support custom suction head and orifice plate parameter adjustment, and seamlessly integrate with mechanical arms, PCR machines, and other equipment to meet diverse experimental needs.

Improved reliability of experimental results

By automating operations to reduce human errors, the experimental repeatability error rate is reduced to below 1%, especially suitable for fields such as drug screening and gene sequencing that require strict data accuracy.
Technological Innovation and Expansion Capability of Pipette Workstation

Multi module integration and intelligent upgrade

Modern pipetting workstations integrate temperature control, magnetic frame, oscillator and other modules to achieve full automation of the "pipetting reaction detection" process. For example, the NGS high-throughput library construction workstation can initiate library preparation with one click, integrate sample allocation, DNA purification, and other steps.

Open source ecosystem and customized support
Some domestic devices adopt hardware and software open source architectures, and users can develop them based on languages such as Python to meet personalized needs in cutting-edge fields such as synthetic biology and cell engineering. For example, the Carbon Ring Intelligent Manufacturing Medical Pipette Workstation supports AI algorithm integration, promoting the transformation of laboratories towards intelligence.

Cross disciplinary application coverage
The equipment is widely used in biotechnology, clinical testing, blood station systems and other scenarios, and can complete tasks such as DNA plasmid purification, virus detection, blood sample analysis, etc. Especially in the "design build test learn" cycle of synthetic biology, it has become the core tool for chassis cell operation

High throughput extraction and precise separation of pipettes using a pipette workstation

Applicable Industries

Pipette workstation is an automated equipment that integrates precision mechanical structure, advanced sensor technology, and intelligent software control system, widely used in multiple industry fields. The following are some of the main applicable industries for pipetting workstations:

Biomedical industry
In biomedical laboratories, pipetting workstations are used for genomics, proteomics research, microbiology, molecular biology, biochemistry, and chemistry laboratories. These workstations can run daily pipetting tasks with high precision, adapting to different numbers of orifice plates to meet diverse pipetting needs.

Drug development industry
Pipette workstations are also widely used in the field of drug metabolism, especially in drug metabolism and pharmacokinetics (DMPK) research. For example, Agilent's BravoAssayMAP platform is suitable for automated analysis projects and can detect biological samples, including mAb samples.

Chemical analysis industry
In the field of chemical analysis, pipetting workstations are used for chemically induced deamidation and oxidative modification projects. These workstations are capable of handling complex sample pre-processing workflows, providing high reproducibility, scalability, and flexibility.

Clinical diagnosis industry
Pipette workstations are also used in clinical diagnosis, especially in the automation upgrade of POCT (point of care testing) equipment. Small scale intelligent workstations can be deployed to grassroots medical institutions to achieve automated testing.

Pharmaceutical/generic drug industry
In the pharmaceutical and generic drug industries, pipetting workstations are used for the determination of critical quality attributes (CQAs), such as the detection of monoclonal antibodies (mAbs) and other samples.

Laboratory Automation
Pipette workstations are an important component of laboratory automation, which can work together with other laboratory equipment such as centrifuges, sequencers, etc. to build a fully automated and intelligent laboratory.