Automatic Plant Metabolite Extraction System

A highly integrated and sophisticated laboratory automation product for sample preparation after plant sample pulverization.

It is designed to optimize the plant sample handling process by automating every step from sample preparation to metabolite extraction to improve efficiency, reduce human error and ensure accurate and reproducible results.

Automation helps laboratories obtain samples for testing quickly and easily.

Automatic Plant Metabolite Extraction System Applied in a university in Hebei

Main Features:

Reduce manual operation time

In the traditional method, each step requires manual operation, such as manually opening the cap, adding liquid, shaking and centrifugation, etc. These operations are not only time-consuming, but also prone to errors.

The automated plant metabolite extraction system is able to complete these steps continuously and automatically, which greatly reduces the manual operation time and improves the working efficiency.

Improved Parallel Processing Capability

The system is usually designed to be able to process multiple samples at the same time. Through the design of multiple stations (e.g. multi-channel liquidizer, multi-tank centrifuge, etc.), the same or different processing steps can be carried out on multiple samples within the same time period, which significantly improves the sample processing capacity.

Precise Control

The system integrates high-precision instruments and equipment, such as high-precision pumps, pipettes, temperature controllers, etc., which can accurately control the parameters of each step (e.g., liquid addition volume, temperature, time, etc.) to ensure the stability and reproducibility of the experimental conditions, thus reducing experimental failures and repetitions due to improper human operation.

Reduced waiting time

In an automated system, individual workstations can work independently or collaboratively. For example, while samples are being incubated, the system can automatically carry out steps such as uncapping and refilling of other samples, thus reducing waiting time and improving overall work efficiency.

Intelligent Management

The system is usually equipped with intelligent management software, which can automatically record the operating parameters and results of each step to facilitate subsequent data analysis and quality control. At the same time, the software can also automatically generate operating instructions according to experimental requirements, reducing the time for manual programming and debugging.

Reducing the risk of contamination

The automated system reduces the risk of cross-contamination by precisely controlling each step of the operation. For example, when transferring liquids, the system uses disposable pipettes or rigorously cleaned utensils to avoid contamination between different samples.

Applicable industries:

Pharmaceuticals, food, cosmetics, industry, agriculture, etc.

Reference standards:

Conforms to routine laboratory standards