Technology

By controlling reactions triggered by factors such as pH (acid-base), temperature, and enzymatic catalysis, we enhance the emulsifying properties of edible soft materials and improve their interactions with surfactants and other additives. This enables controllable nano-interface assembly.

A miniaturized fluid control platform based on micro/nano technology. Our microfluidics platform enables the high-throughput synthesis of highly uniform microsphere libraries, allows for gradient mixing of multiple components, and provides highly precise control over reaction processes. This technology significantly shortens reaction times and improves overall efficiency.

Microscopic Imaging and Machine Learning / By integrating interdisciplinary knowledge from computer science, mathematics, statistics, and artificial intelligence, we apply advanced data analysis and information processing techniques. In our high-throughput microsphere carrier synthesis platform, these techniques are used to analyze carrier libraries and identify optimal conditions for specific active ingredients. Large-scale data analysis and processing models enable efficient and accurate screening, significantly reducing screening time and improving efficiency. 

Highly compatible with microfluidic methods, this technology enables the rapid generation of kilogram-scale pilot samples. It allows for effective adjustment and optimization of experimental parameters, formulation compositions, and process technologies, facilitating rapid product iteration.

Based on molecular interface surface modification, our technology utilizes fixation mechanisms including chemical covalent bonding and bioaffinity binding. This enhances enzyme stability and catalytic efficiency, enables enzyme reuse, and significantly expands the potential application scenarios for enzymes.