NEMStek hosted a visit from Northsen Microfluidics for technical exchanges.

In April 2024, Northsen Microfluidics (IMT) visited for in-depth technical exchanges regarding their respective fields. This exchange included presentations of each other's latest research achievements, technological development trends, experimental methods, production management, and more. Through these discussions, we had the opportunity to understand Northsen Microfluidics' cutting-edge position in technology and engage in conversation about their achievements and methods, thus promoting mutual progress in technology and enhancing production efficiency and product quality.

The entire exchange process was not just a one-sided technology transfer but also a mutual learning. We learned from Northsen Microfluidics about their advanced technology and management experience and shared our research results and production management practices. Through this two-way exchange, we mutually promoted progress in microfluidic technology and production management, further expanding our professional knowledge and skills.

Overall, Northsen Microfluidics' visit was a simple technical exchange and a valuable opportunity for mutual learning and improvement. This interdisciplinary and cross-cultural exchange is significant for promoting the development of microfluidic technology and advancing the industry.

Professor Takehiko Kitasen, the founder of Northsen Microfluidics, is a world authority in the field of microfluidics. The company was established in June 2021 at the Tsinghua University Incubator Center, with technical cooperation partners including top Japanese chemical companies, Tsinghua University, Lund University in Sweden, and other renowned university laboratories.

Currently, microfluidic technology is mainly applied in precise and rapid biochemical analysis. The establishment of IMT TAIWAN aims to further promote the development of microfluidic technology towards mass-produced precision biochemical synthesis applications. In addition to producing high-quality and stable molecules, this technology significantly reduces factory space and lowers occupational safety risks. Microfluidics has a wide range of applications, including semiconductor fluid testing, biochemical analysis, environmental analysis, chemical synthesis, and pharmaceutical manufacturing. It is expected to lead the next wave of the biochemical synthesis revolution.