Technology
Technology
Drop whole blood through a blood filter
Separate plasma from blood and flow into the microchannel
Artificial antibodies catch the biomarker
Vacuum pump stably drive fluid
EIS : Accurate and quantitative electrical measurement
The detection developed by IVD R.E.D. is all based on Electrochemical impedance spectroscopy (EIS).It is a method to quantitatively measure the binding of biomarkers (antibodies) in the chips based on the measurement of complex electrochemical impedance at different frequencies.
Combination of EIS and our patented technology
Fully Integrated Microfluidic Chip
Artificial Antibody
Vacuum Module
Blood Filter
Vacuum module
We have researched and developed the smallest vacuum module in the world. Compared with traditional microfluidic control systems and pressure injection pumps which are bulky, sample-loss, and unable to miniaturize the size, our multiply patented vacuum module does not need additional power supply and complicated pipelines, can be attached to the chip, saving users the time of operating the instrument and simplifying the experimental steps.
No professional operators
Ease to use
Lab on chip
Small sample size
Artificial Antibody
Artificial antibody is a bionic engineering technology made of non-biological artificial materials with the ability to identify specific substances. It adopts the concept of “tailor-made”. Compared with traditional methods, it is highly specific and has great resistance to temperature, pressure, chemicals, and time. For commonly traditional methods, it is necessary to match specific reagents and complicated procedures in the laboratory. However, artificial antibody is suitable for on-site detection, can be stored at room temperature, and can also make the methods simpler.
High Specificity
High Accuracy
Room Temperature Storage
High Stability
Blood Filter
We have researched and developed the blood filter, which can be integrated on a fully integrated chip without external pipeline connections. Compared with the traditional methods that needs to use a centrifuge and connect to power supply, our blood filter does not require experimental operations or worry about sample storage. Combined with a fully integrated microfluidic chip, the plasma can be separated by dropping blood into the blood filter, which can be detected at the medical site, making the detection easier.
No professional operators
High integration
No external equipment
Small volume
Fully integrated microfluidic chip
We focus on the development and fabrication of various microfluidic chips, including medical testing, cell isolation, food and drug analysis. The sample processing steps, detection instruments and experimenters’ operation steps are all integrated on the microfluidic chip, so that the target can react immediately on the chip. Compared with traditional detection methods, fully integrated microfluidic chip has the unique electrical configuration that can improve accurate quantitative detection, and only requires little sample size and shortens the reaction time, allowing users to get reports faster.
On-site detection
Little sample size
Short response time
High Specificity
