With the development of industrial intelligence and medical precision, microfluidic technology has become an important direction in the field of fluid technology. We focus on the research and development of micro-pumps and micro-valves to promote technological innovation and industrial applications.
Miniaturisation and integration
Through MEMS technology and precision processing, we have developed a miniature piezoelectric air pump that is only 1/10 the size of traditional products, which is suitable for wearable devices and portable medical instruments. For example, a liquid-cooled protective case for a mobile phone is equipped with a micro-pump, which achieves efficient heat dissipation while maintaining a thin and lightweight design. In the future, we will explore the integration of microfluidic channels and sensors to build a complete microfluidic control system.
Multidisciplinary Innovation
Combining material science and bionics, we develop new pump and valve materials. For example, we have adopted a flexible microvalve with a bionic octopus tentacle structure to improve response speed by 50%, and developed a self-repairing coating technology to extend the service life of the micropump to more than 10 years. At the same time, we introduce artificial intelligence algorithms to optimise the dynamic control strategy of microfluidic systems.
New Scenarios for Industry Applications
Microfluidic technology is penetrating into more fields. In biopharmaceuticals, we provided a microfluidic mixing system for an mRNA vaccine production line, which improved the reaction efficiency by 3 times; in smart cars, we developed a microfuel pump to achieve precise injection control. In the future, we will continue to explore innovative applications of microfluidics in new energy, artificial intelligence and other fields, leading the industry to change.
