Automatic Plant Metabolite Extraction System

The Automated Plant Metabolite Extraction System is a highly integrated and sophisticated laboratory automation product designed for sample preparation after plant material grinding. It aims to optimize the plant sample processing workflow by automating every step from sample preparation to metabolite extraction, thereby enhancing efficiency, minimizing human errors, and ensuring the accuracy and reproducibility of experimental results. 

| Main Features

◆Automatic dosing/pipetting, lid opening/closing, shaking/shaking, metal bath, centrifugation, nitrogen purge

| Applicable Industries

◆ medicine, food, cosmetics, industry, agriculture, etc.

| Reference Standard

◆ Meets Laboratory regular Standards

| Product Features

◆ Reduced Manual Operation Time
In traditional methods, each step requires manual intervention, such as manually opening caps, adding liquids, shaking, and centrifuging. These operations are not only time-consuming but also prone to errors. The automated plant metabolite extraction system continuously and automatically performs these steps, significantly reducing manual operation time and improving work efficiency.

◆ Parallel Processing Capability
The system is typically designed to process multiple samples simultaneously. Through a multi-station design (e.g., multi-channel dispensers, multi-basket centrifuges), it can perform the same or different processing steps on multiple samples within the same time frame, substantially increasing sample throughput.

◆ Precise Control
The system integrates high-precision instruments and equipment, such as high-precision pumps, pipettes, and temperature controllers. It can precisely control the parameters of each step (e.g., liquid addition volume, temperature, time), ensuring the stability and reproducibility of experimental conditions, thereby reducing experiment failures and repetitions caused by improper manual operation.

◆ Reduced Waiting Time
In an automated system, individual workstations can operate independently or collaboratively. For example, while samples are incubating, the system can automatically perform capping/uncapping and liquid addition for other samples. This reduces waiting time and enhances overall workflow efficiency.

◆ Intelligent Management
The system is typically equipped with intelligent management software that automatically records operational parameters and results for each step, facilitating subsequent data analysis and quality control. Furthermore, the software can automatically generate operation instructions based on experimental requirements, reducing the time spent on manual programming and debugging.

◆ Reduced Contamination Risk
By precisely controlling each step, the automated system minimizes the risk of cross-contamination. For instance, during liquid transfer, the system uses disposable pipettes or strictly cleaned tools to prevent contamination between different samples.