1. H. Qu, X. Lu, and
M. Skorobogatiy, “All solid flexible fiber-shaped lithium ion batteries,”
Journal of the Electrochemical Society, Vol. 165(3), pp. A688-A695, (2018)
2. Feature Article: H. Qu and M. Skorobogatiy, (Ed. S.V.
Boriskina), "Optics
on the Go: Active-Color-Changing Textiles," Optics
Photopnics News, September Issue, pp. 36-41 (2017)
3. X. Lu, H. Qu, and
M. Skorobogatiy, "Piezoelectric microstructured fibers via drawing of
multimaterial preforms," Nature Scientific Reports, Vol. 7, pp. 2907
(2017)
4. X. Lu, H. Qu, and
M. Skorobogatiy, "Piezoelectric micro- and nanostructured fibers
fabricated from thermoplastic nanocomposites using a fiber drawing technique:
comparative study and potential applications," ACS Nano, Vol. 11, pp.
2103 (2017)
5. H. Qu, J. Hou, Y. Tang, O.
Semenikihin, and M. Skorobogatiy, "Thin flexible lithium ion battery featuring
graphite paper based current collectors with enhanced conductivity," Canadian
Journal of Chemistry, Vol. 95, pp. 169-173 (2017)
6. J. Li, H. Qu, and
M. Skorobogatiy, "Squeezed hollow-core photonic Bragg fiber for
surface sensing applications," Optics Express, Vol. 24, pp.
15687-15701 (2016)
7. H. Qu, Z.-L. Deck-Léger, C.
Caloz, and M. Skorobogatiy, "Frequency generation in moving photonic
crystals," Journal of American Optical Society B, Vol. 33, p. 1616
(2016)
8. A. K. Yetisen, H. Qu,
A. Manbachi, H. Butt, M.R. Dokmeci, J.P. Hinestroza, M. Skorobogatiy, and S. H.
Yun, “Nanotechnology in textiles” ACS Nano, Vol.10, pp. 3042-3068 (2016)
9. Featured Article: H. Qu, O. Semenikhin, M.
Skorobogatiy, “Flexible fiber batteries for applications in smart textiles,”
Smart Materials and Structures, Vol. 24, pp. 025012 (2015)
10. H. Guerboukha, A. Markov, H. Qu, M. Skorobogatiy, “Fast rotary linear optical delay line for THz,
time-domain spectroscopy,” IEEE Transactions on Terahertz Science and
Technology, Vol. 5, pp. 564-472 (2015)
11. J. Li, H. Qu, M.
Skorobogatiy, “Simultaneous monitoring of the real and imaginary parts of
the analyte refractive index using liquid-core photonic bandgap Bragg
fibers,” Optics Express, vol. 23, pp. 22963-22976 (2015)
12. H. Qu, G. F. Yan, M.
Skorobogatiy, “Interferometric fiber-optic bending/nano-displacement sensor
using plastic dual-core fiber,” Optics Letters, Vol. 39, pp. 4835-4838 (2014)
13. Book Chapter: H. Qu, M. Skorobogatiy,
“Conductive polymer yarns for electronic textiles,” in Electronic textile:
Smart fabrics and wearable technology” edited by Prof. T. Dias and Prof. S.
Lynch, Woodhead Publishing (2014)
14. Book Chapter: H. Qu, J. Li. M. Skorobogatiy,
“Photonic bandgap fibers – a roadway to all-fiber refractometer systems for
monitoring liquid analytes,” in Optofluidics, sensors and actuators in
microstructured optical fibers edited by S. Pissadakis and S. Selleri, Woodhead
Publishing (2014)
15. H. Qu, T. Brastaviceanu, F.
Bergeron, J. Olesik, I. Pavlov, T. Ishigure, M. Skorobogatiy, “Photonic bandgap
Bragg fiber sensors for bending/displacement detection,” Applied Optics, Vol.
52, pp. 6344-6348 (2013)
16. H. Qu, M. Skorobogatiy,
“Resonant bio- and chemical sensors using low-refractive-index- contrast
liquid-core Bragg fibers,” Sensors and Actuators B, Vol. 161, pp. 261-268
(2012)
17. H. Qu, B. Ung, M. Roze, M.
Skorobogatiy, “All photonic bandgap fiber spectroscopic system for detection of
refractive index changes in aqueous analytes,” Sensors and Actuators B, Vol.
161, pp. 235-243 (2012)
18. H. Qu, M. Skorobogatiy,
“Liquid-core low-refractive-index-contrast Bragg fiber sensor,” Applied Physics
Letters, Vol. 98, pp. 201114 (2011)
19. H. Qu, B. Ung, I. Syed, N. Guo,
M. Skorobogatiy, “Photonic bandgap fiber bundle spectrometer,” Applied Optics,
Vol. 49, pp. 4791 (2010)