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个人简介

2005年毕业于华中科技大学获光学工程博士学位,随后赴新加坡国立大学从事微电子(光电子)机械系统(MEMS/MOEMS)技术领域的研究工作,历任研究员和高级研究员。现为新加坡科技局微电子研究院研究员、项目负责人(PI),同时担任新加坡国立大学机械工程系客座助理教授。

研究领域

微电子(光电子)机械系统(MEMS/MOEMS)技术及其应用研究 硅基/聚合物基微加工技术 新型医用诊断治疗技术和设备 光流体技术和纳米光子技术 光电检测技术 功能材料应用研究

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

(1) Hongbin Yu, G. Zhou. Deformable mold based on-demand microchannel fabrication technology. Sensors and Actuators B. 183 (2013) (2) Hongbin Yu, B. Guo, K. Haridas, T.-H. Lin, J. H. Cheong, M. L. Tsai, T. B. Yee. Capacitive micromachined ultrasonic transducer based tilt sensing. Applied Physics Letters. 101(2012) (3) Hongbin Yu, B. Guo, T.-H. Lin, M. L. Tsai, T. B. Yee. Characterization of the dynamic mechanical stability of liquid-filled lenses. Optics Express. 20 (2012) (4) Hongbin Yu, G. Zhou, Y. Du, X. Mu, F. S. Chau. MEMS-based tunable iris diaphragm. IEEE Journal of Microelectromechanical Systems. 21(2012) (5) Hongbin Yu, G. Zhou, S. K. Sinha, F. S. Chau. Development of self-aligning two-stage co-delivery microchannel network. Sensors and Actuators B. 161(2012) (6) Hongbin Yu, G. Zhou, S. K. Sinha, Y. Leong, F. S. Chau. Characterization and reduction of MEMS sidewall friction using novel microtribometer and localized lubrication method. IEEE Journal of Microelectromechanical Systems. 20 (2011) (7) Hongbin Yu, G. Zhou, X. Chew, S. K. Sinha, F. S. Chau. Nanotribometer integrating nanooptical displacement sensing mechanism. J. Micromech. Microeng. 21 (2011). (8) Hongbin Yu, G. Zhou, F. S. Chau, S. K. Sinha. Tunable electromagnetically-actuated liquid-filled lens. Sensors and Actuators A. 167 (2011) (9) Hongbin Yu, G. Zhou, S. K. Sinha, F. S. Chau. Scanning grating based in-plane movement sensing. J. Micromech. Microeng. 20 (2010) (10) Hongbin Yu, G. Zhou, F. S. Chau, H. M. Leung. Tunable liquid-filled lens integrated with aspherical surface for spherical aberration compensation. Optics Express. 18 (2010) (11) Hongbin Yu, G. Zhou, F. S. Chau and F. Lee. Fabrication and characterization of PDMS-based microlens based on elastomeric molding technology. Optics Letters. 34 (2009) (12) Hongbin Yu, G. Zhou, F. S. Chau and F. Lee. Phase transmission grating based compact optofluidic refractometer. Optics Letters. 34 (2009) (13) Hongbin Yu, G. Zhou, F. S. Chau and S. Wang. Lens with transformable lens type and tunable focal length characteristics. IEEE Journal on selected topic in quantum electronics. 15 (2009) (14) Hongbin Yu, G. Zhou, F. S. Chau, F. Lee, S. Wang and H. Leung. A liquid-filled tunable double-focus microlens. Optics Express.17 (2009) (15) Hongbin Yu, G. Zhou, F. S. Chau, S. Wang and F. Lee. Novel poly(dimethylsiloxane) (PDMS) based microchannel fabrication method for lab-on-a-chip application. Sensors and Actuators B. 137(2009) (16) Hongbin Yu, G. Zhou, F. S. Chau, F. Lee and S. Wang.Tunable Shack Hartmann wavefront sensor based on liquid-filled microlens array. J. Micromech. Microeng., 18 (2008) (17) Hongbin Yu, G. Zhou, F. S. Chau and F. Lee. A Variable optical attenuator based on optofluidic Technology. J. Micromech. Microeng., 18 (2008) (18) Hongbin Yu, G. Zhou, F. S. Chau and F. Lee. Simple method for fabricating solid microlenses with different focal lengths. IEEE Photonics Technology Letters., 20 (2008) (19) Hongbin Yu, G. Zhou, F. S. Chau, F. Lee, S. Wand and M. Zhang. An electromagnetically driven lamellar grating based Fouriertransform microspectrometer. J. Micromech. Microeng., 18 (2008). (20) Hongbin Yu, G. Zhou and F. S. Chau and F. Lee. Optofluidic variable aperture. Optics Letters, 33 (2008).

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