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Carbon Nanotube Based High Resolution Holograms.

Butt, H., Montelongo, Y., Butler, T., Rajesekharan, R., Dai, Q., Shiva‐Reddy, S. G., ... & Amaratunga, G. A. (2012). Carbon nanotube based high resolution holograms. Advanced materials24(44), OP331-OP336.

Cylindrical Fresnel lenses based on carbon nanotube forests.

Dai, Q., Rajasekharan, R., Butt, H., Qiu, X., Amaragtunga, G., & Wilkinson, T. D. (2012). Ultrasmall microlens array based on vertically aligned carbon nanofibers. Small (Weinheim an der Bergstrasse, Germany)8(16), 2501-2504.

Ultra-small microlens array based on vertically-aligned carbon nanofibers.

Dai, Q., Rajasekharan, R., Butt, H., Qiu, X., Amaragtunga, G., & Wilkinson, T. D. (2012). Ultrasmall microlens array based on vertically aligned carbon nanofibers. Small (Weinheim an der Bergstrasse, Germany)8(16), 2501-2504.

Electrically Switchable Diffraction Grating Using a Hybrid Liquid Crystal and Carbon Nanotube-Based Nanophotonic Device.

Won, K., Palani, A., Butt, H., Hands, P. J., Rajeskharan, R., Dai, Q., ... & Wilkinson, T. D. (2013). Electrically switchable diffraction grating using a hybrid liquid crystal and carbon nanotube‐based nanophotonic device. Advanced Optical Materials1(5), 368-373.

Vertical CNT-Si Photodiode Array,

Ahnood, A., Zhou, H., Dai, Q., Vygranenko, Y., Suzuki, Y., Esmaeili-Rad, M. R., ... & Nathan, A. (2013). Vertical CNT-Si photodiode array. Nano letters13(9), 4131-4136.

Enhanced field emission properties of carbon nanotubes by coating diamond-like carbon layer.

He, F., Li, Z., Li, C., Zhou, H., & Dai, Q. (2014, October). Enhanced field emission properties of carbon nanotubes by coating diamond-like carbon layer. In 2014 12th IEEE International Conference on Solid-State and Integrated Circuit Technology (ICSICT) (pp. 1-3). IEEE.

Enhanced reflection from inverse tapered nanocone arrays,

Kong, X. T., Butt, H., Yetisen, A. K., Kangwanwatana, C., Montelongo, Y., Deng, S., ... & Dai, Q. (2014). Enhanced reflection from inverse tapered nanocone arrays. Applied Physics Letters105(5).

Plasmonic extinction of gated graphene nanoribbon array analyzed by a scaled uniform Fermi level,

Kong, X. T., Yang, X., Li, Z., Dai, Q., & Qiu, X. (2014). Plasmonic extinction of gated graphene nanoribbon array analyzed by a scaled uniform Fermi level. Optics letters39(6), 1345-1348.

Tuning the peak position of subwavelength silica nanosphere broadband antireflection coatings,

Tao, F., Hiralal, P., Ren, L., Wang, Y., Dai, Q., Amaratunga, G. A., & Zhou, H. (2014). Tuning the peak position of subwavelength silica nanosphere broadband antireflection coatings. Nanoscale research letters9(1), 361.

Carbon nanotube biconvex microcavities,

Butt, H., Yetisen, A. K., Ahmed, R., Yun, S. H., & Dai, Q. (2015). Carbon nanotube biconvex microcavities. Applied Physics Letters106(12).