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Li, J., Qu, H., & Wang, J. (2020). Photonic Bragg waveguide platform for multichannel resonant sensing applications in the THz range. Biomedical Optics Express, 11(5), 2476-2489. External link
Qu, H., Lu, X., & Skorobogatiy, M. A. (2018). All-solid flexible fiber-shaped lithium ion batteries. Journal of The Electrochemical Society, 165(3), A688-A695. External link
Lu, X., Qu, H., & Skorobogatiy, M. A. (2018). Piezoelectric Micro- and Nanostructured Fibers Fabricated from Thermoplastic Nanocomposites Using a Fiber Drawing Technique: Comparative Study and Potential Applications. ECS Transactions, 86(16), 57-69. External link
Lu, X., Qu, H., & Skorobogatiy, M. A. (2017). Piezoelectric microstructured fibers via drawing of multimaterial preforms. Scientific Reports, 7(1), 2907 (12 pages). Available
Qu, H., & Skorobogatiy, M. A. (2017). Optics on the go: Active-color-changing textiles. Optics & Photonics News (September), 36-41. External link
Qu, H., Hou, J., Tang, Y., Semenikhin, O., & Skorobogatiy, M. A. (2017). Thin flexible lithium-ion battery featuring graphite paper based current collectors with enhanced conductivity. Canadian Journal of Chemistry, 95(2), 169-173. External link
Qu, H., Deck-Léger, Z.-L., Caloz, C., & Skorobogatiy, M. A. (2016). Frequency generation in moving photonic crystals. Journal of the Optical Society of America B: Optical Physics, 33(8), 1616-1626. External link
Yetisen, A. K., Qu, H., Manbachi, A., Butt, H., Dokmeci, M. R., Hinestroza, J. P., Skorobogatiy, M. A., Khademhosseini, A., & Yun, S. H. (2016). Nanotechnology in textiles. ACS Nano, 10(3), 3042-3068. External link
Li, J., Qu, H., & Skorobogatiy, M. A. (2016). Squeezed hollow-core photonic Bragg fiber for surface sensing applications. Optics Express, 24(14), 15687-15701. External link
Qu, H., Semenikhin, O., & Skorobogatiy, M. A. (2015). Flexible fiber batteries for applications in smart textiles. Smart Materials and Structures, 24(2). External link
Li, J., Qu, H., & Skorobogatiy, M. A. (2015). Simultaneous monitoring the real and imaginary parts of the analyte refractive index using liquid-core photonic bandgap Bragg fibers. Optics Express, 23(18), 22963-22976. External link
Qu, H., Brastaviceanu, T., Bergeron, F., Olesik, J., Pavlov, I., Ishigure, T., & Skorobogatiy, M. A. (2013). Photonic bandgap Bragg fiber sensors for bending/displacement detection. Applied Optics, 52(25), 6344-6349. External link
Qu, H., Ung, B., Roze, M., & Skorobogatiy, M. A. (2012). All Photonic Bandgap Fiber Spectroscopic System for Detection of Refractive Index Changes in Aqueous Analytes. Sensors and Actuators B: Chemical, 161(1), 235-243. External link
Qu, H., & Skorobogatiy, M. A. (2012). Resonant Bio- and Chemical Sensors Using Low-Refractive-Index-Contrast Liquid-Core Bragg Fibers. Sensors and Actuators B: Chemical, 161(1), 261-268. External link
Qu, H., & Skorobogatiy, M. A. (2011). Liquid-core low-refractive-index-contrast Bragg fiber sensor. Applied Physics Letters, 98(20). External link
Qu, H., Ung, B., Syed, I., Guo, N., & Skorobogatiy, M. A. (2010). Photonic Bandgap Fiber Bundle Spectrometer. Applied Optics, 49(25), 4791-4800. External link
Lu, X., Qu, H., & Skorobogatiy, M. A. (2017, April). Smart fibers for textile-based micro-generators and compliant energy storage [Paper]. Materials Research Society Spring Meeting & Exhibit (MRS 2017), Phoenix, Arizona. External link
Li, J., Qu, H., & Skorobogatiy, M. A. (2017, May). Squeezed hollow core photonic Bragg fiber for surface sensing applications [Paper]. CLEO: Applications and Technology (CLEO_AT 2017), San Jose, CA, United states. External link
Gannot, I., Li, J., Qu, H., & Skorobogatiy, M. A. (2016, February). Detection of analyte refractive index and concentration using liquid-core photonic Bragg fibers [Paper]. Optical Fibers and Sensors for Medical Diagnostics and Treatment Applications XVI, San Francisco, California. External link
Qu, H., Skorobogatiy, M. A., Deck-Leger, Z. L., & Caloz, C. (2016, May). Frequency generation in a moving 2-dimensional photonic crystal [Paper]. Photonic North (PN 2016), Québec City. Unavailable
Soskind, Y. G., Olson, C., Guerboukha, H., Qu, H., & Skorobogatiy, M. A. (2016, February). Linear rotary optical delay lines [Paper]. Photonic Instrumentation Engineering III, San Francisco, California. External link
Guerboukha, H., Markov, A., Qu, H., & Skorobogatiy, M. A. (2015, June). Dynamic measurements at terahertz frequencies with a fast rotary delay line [Paper]. Photonics North 2015, Ottawa, ON, Canada. External link
Markov, A., Gorgutsa, S., Qu, H., & Skorobogatiy, M. A. (2013, June). Plasmonic two-wire terahertz fibers with highly porous dielectric support [Paper]. CLEO 2013. Conference on lasers and electro optics, San Jose, CA, USA. External link
Qu, H., & Skorobogatiy, M. A. (2012, June). All-photonic-bandgap-fiber sensor for detection of liquid refractive index3 [Paper]. Photonics North 2012, Montréal, Québec. Unavailable
Qu, H., & Skorobogatiy, M. A. (2012, June). Liquid-core low-refractive index-refractive index-contrast Bragg fiber sensor [Paper]. Photonics North 2012, Montréal, Québec. Unavailable
Qu, H., Ung, B., & Skorobogatiy, M. A. (2012, May). Photonic bandgap fiber bundle spectrometer [Paper]. 2012 Conference on Lasers and Electro-Optics, CLEO 2012, San Jose, CA, United states (2 pages). External link
Qu, H., & Skorobogatiy, M. A. (2011, October). All-polymer photonic bandgap Bragg fibers for bio-chemical sensors and spectrometers [Paper]. 17th Microoptics Conference, MOC'11, Sendai, Japan. External link
Qu, H., Ung, B., & Skorobogatiy, M. A. (2011, June). Liquid filled hollow core photonic bandgap fiber sensor [Paper]. Optical Sensors, Toronto, Canada. External link
Qu, H., Hou, J., Lu, X., Tang, Y., Semenikhin, O., & Skorobogatiy, M. A. (2017, April). Thin flexible lithium ion battery featuring graphite paper based current collectors with enhanced conductivity [Poster]. Materials Research Society Spring Meeting & Exhibit (MRS 2017), Phoenix, Arizona. Unavailable
Ma, T., Nallapan, K., Guerboukha, H., Skorobogatiy, M. A., & Qu, H. (2017, May). Dispersion Compensation in Terahertz Communication Links Using Metallized 3D Printed Hollow Core Waveguide Bragg Gratings [Abstract]. CLEO: Science and Innovations 2017, San Jose, California. External link
Qu, H. (2013). All Photonic Bandgap Bragg Fiber Refractometers [Ph.D. thesis, École Polytechnique de Montréal]. Available