深圳分中心揭牌，盘点各地科学仪器转化中心及成功案例

Core Viewpoint - The establishment of the Shenzhen branch of the National University Regional Technology Transfer Center (Greater Bay Area) marks a significant step in the transformation and industrialization of high-end scientific instruments in Shenzhen [2][4]. Group 1: Overview of Shenzhen Branch - The Shenzhen branch is established based on the Shenzhen Advanced Light Source Research Institute, focusing on five major industrial directions: high-performance and future materials science research instruments, molecular biomedical instruments, precision instruments for quantum technology, semiconductor and integrated circuit testing equipment, and high-end network and communication instruments [4]. - The core mission of the Shenzhen branch is to address the pain point of "self-use good, market hard to use" in university research instruments, optimizing technology to make instruments more user-friendly and accessible, thereby aiding domestic high-end scientific instruments in entering both domestic and international markets [4]. Group 2: Successful Case Studies - The Beijing Innovation Center focuses on high-end mass spectrometry and spectroscopy instrument development, integrating technology from universities and research institutions to promote collaborative innovation. A high-sensitivity mass spectrometry detection system has been deployed for real-time monitoring of environmental pollutants, achieving detection precision at the ppb level [6]. - The Shanghai Scientific Instrument Innovation Port provides full-chain services from instrument R&D to industrialization, with a focus on overcoming bottleneck technologies in biomedicine and semiconductor testing equipment. A domestically produced flow cytometer has achieved mass production, reducing costs by 40% and supplying institutions like Shanghai Ruijin Hospital [7]. - The Wuhan Life Sciences Large Instrument Regional Center integrates biomedical instrument resources from Wuhan universities, providing a shared platform that promotes the technology transfer of cryo-electron microscopes and gene sequencers. The super-resolution imaging technology has been utilized in research on the mechanism of COVID-19 infection, supporting multiple publications in Nature [9]. - The Advanced Technology Transfer Center in Xi'an focuses on converting aerospace and military instrument technologies for civilian use, leveraging resources from Northwestern Polytechnical University. Aerospace sensor technology has been transformed into industrial non-destructive testing equipment for quality inspection of C919 components [10]. - The Advanced Technology Transfer Center in the Yangtze River Delta, under the Ministry of Industry and Information Technology, focuses on the industrialization of optoelectronic instruments and marine detection equipment. High-precision sonar technology for deep-sea exploration has been equipped on the "Jiaolong" scientific research vessel, achieving detection at depths of 10,000 meters [11]. - The Beijing-Tianjin-Hebei National Technology Innovation Center promotes the R&D and standardization of environmental monitoring and medical diagnostic instruments. An online source tracing system for air pollutants has been developed and applied to ensure air quality during the Winter Olympics [12]. - The Tsinghua University Precision Instrument Transfer Center focuses on the transfer of patented technologies from Tsinghua's Precision Instrument Department, specializing in high-end manufacturing such as lithography machine components and MEMS sensors. Laser interferometer technology has been utilized in the positioning system of domestic lithography machines, achieving nanometer-level precision [13]. - The Harbin Institute of Technology Instrument Pilot Base accelerates the landing of results in space environment simulation and special sensors, with satellite payload calibration devices being converted for civilian use, serving the wind power equipment condition monitoring market [14]. - The Shanghai Innovation Center (Zhangjiang) provides CDMO services for biomedicine instruments, covering the entire process from R&D to GMP production. The first domestic bioreactor production line has been established to meet the capacity needs of COVID-19 vaccine companies [15]. - The Hefei Institute of Technology Innovation Engineering focuses on the industrialization of nuclear energy and quantum instruments, developing the world's first portable nuclear magnetic resonance instrument for grassroots medical use [16]. - The Suzhou Biomedical Engineering Technology Research Institute, co-built by the Chinese Academy of Sciences, Jiangsu Province, and Suzhou City, specializes in the engineering and industrialization of biomedical instruments, reagents, and biomaterials. A high-speed flow cytometer has been developed, achieving a detection speed of 100,000 cells per second at one-third the cost of imported equipment, with over 500 units installed [17].