State-of-the-Art Research Facilities at Chang Gung University's Biomedical Engineering Department
The Biomedical Engineering Department at Chang Gung University boasts advanced and comprehensive research facilities, providing strong support for academic research and innovation. The department is equipped with several specialized research labs, including:
- Functional Biomaterial Lab
- Tissue Engineering & Microfluidic Bio Lab
- Biomaterials Lab
- Biomedical Optofluidics Lab
- Bio-MEMS Laboratory
- Biomechanical Lab
- Tissue Mechanics Laboratory
- TIO Lab
- Artificial Intelligence Microfluidics Integration Laboratory
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The Chang's Lab
Each lab focuses on a specific field, covering areas such as biomaterials, microfluidic chips, tissue engineering, mechanics, and optoelectronic microfluidics. Every laboratory is dedicated to breakthroughs in its specialty and actively cultivates students' research skills.
To support experimentation and academic inquiry, the Biomedical Engineering Department at Chang Gung University is equipped with an array of high-tech instruments and equipment, such as:
- X-ray Diffractometer (XRD): For analyzing the crystal structure of materials, providing precise structural data.
- Instron Biaxial Bone Material Testing Machine: Useful for mechanical testing, particularly suitable for strength analysis of orthopedic materials.
- Desktop Laser Engraving Machine: Capable of precision cutting across various materials, used for creating MEMS and biomedical devices.
- Optodielectrophoretic Microfluidic Device: For microfluidic research, ideal for controlling cells or microparticles on biochips.
- Powder Sintering 3D Printer: Supports high-temperature material printing, allowing the production of complex biomedical devices.
- Immersive Human-Body Interactive Development System: Simulates a virtual human environment, aiding research and development in biomedical interactions.
- Flow Cytometer: Suitable for high-throughput analysis of biological samples, enabling rapid cell characteristic measurement.
- Rheometer: For testing the flow properties of materials, especially valuable for biomedical material research.
These advanced instruments not only enhance the precision and depth of research but also provide students with rich hands-on experimental experience. The availability of such equipment allows researchers to conduct in-depth studies at the forefront of biomedical engineering, laying a foundation for academic advancement and breakthroughs in medical applications.