Rui Zhang
Peking University, College of Engineering, No. 8 YiHeYuan Road, Beijing 100871, China
Liangliang Zhang, Tong Wu, Cunlin Zhang
Capital Normal University, Department of Physics, No. 105 XiSanHuan BeiLu, Beijing 100048, China
Ruixue Wang, Shasha Zuo, Dong Wu
Peking University, Academy for Advanced Interdisciplinary Studies, No. 8 YiHeYuan Road, Beijing 100871, China
Jue Zhang, Jing Fang
Peking University, College of Engineering, No. 8 YiHeYuan Road, Beijing 100871, China
Peking University, Academy for Advanced Interdisciplinary Studies, No. 8 YiHeYuan Road, Beijing 100871, China
J. Biomed. Opt. 21(7), 076006 (Jul 12, 2016). doi:10.1117/1.JBO.21.7.076006
Abstract. Molecular imaging techniques are becoming increasingly important in biomedical research and potentially in clinical practice. We present a continuous-terahertz (THz)-wave molecular imaging system for biomedical applications, in which an infrared (IR) laser is integrated into a 0.2-THz reflection-mode continuous-THz-wave imaging system to induce surface plasmon polaritons on the nanoparticles and further improve the intensity of the reflected signal from the water around the nanoparticles. A strong and rapid increment of the reflected THz signal in the nanoparticle solution upon the IR laser irradiation is demonstrated, using either gold or silver nanoparticles. This low-cost, simple, and stable continuous-THz-wave molecular imaging system is suitable for miniaturization and practical imaging applications; in particular, it shows great promise for cancer diagnosis and nanoparticle drug-delivery monitoring.
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