The research team focuses on exploring the macroscopic and microstructure properties of biomedicine by means of the physical characteristics of multi-spectrum and different spectral bands, to promote the application of precision spectral detection technology in biomedicine sector through all-round examination of cells and tissues, and to develop precision spectrum biomedical detector and analytical instrument used for biomedical assisted diagnosis. By exploring the multi-spectral signal characteristic spectrum of different biological structures and influencing factors in vivo and vitro to get the multi-spectral fingerprint information of biological tissues, it can construct a real-time multi-band spectral analysis system for the detection of biological tissues or structures, providing assisted medical diagnosis.
With developing practical precision spectrum biomedical detection system as its main research line, and by all-round research on cells, tissues, organs and individuals from micro and macro perspectives, the team aims to address such key issues as high efficient broadband Terahertz radiation source, low loss Terahertz devices, integrated stabilization system, etc. in the interdisciplinary field of living organisms and electromagnetics so as to satisfy the major demands from the national biomedical development. By assembling the core components together, it can develop an integrated spectrum system for the detection of biological cells and tissues.
National Key Scientific Instruments and Equipment Development Project:
1. Design of a Simplified Optical Path System for Terahertz hazard analysis
2. The Establishment of Terahertz Spectrum Database for Various Dangerous Articles
3. Development of Automatic Identification Technology of Dangerous Articles Based on Support Vector Machine
