Ghobadi, A. Et Al. 2017. 97 percent light absorption in an ultrabroadband frequency range utilizing an ultrathin metal layer: randomly oriented, densely packed dielectric nanowires as an excellent light trapping scaffold. NANOSCALE , vol.9, no.43 , 16652-16660.

Ghobadi, A., Dereshgi, S. A., Hajian, H., Birant, G., BÜTÜN, B., BEK, A., ... ÖZBAY, E.(2017). 97 percent light absorption in an ultrabroadband frequency range utilizing an ultrathin metal layer: randomly oriented, densely packed dielectric nanowires as an excellent light trapping scaffold. NANOSCALE , vol.9, no.43, 16652-16660.

Ghobadi, Amir Et Al. "97 percent light absorption in an ultrabroadband frequency range utilizing an ultrathin metal layer: randomly oriented, densely packed dielectric nanowires as an excellent light trapping scaffold," NANOSCALE , vol.9, no.43, 16652-16660, 2017

Ghobadi, Amir Et Al. "97 percent light absorption in an ultrabroadband frequency range utilizing an ultrathin metal layer: randomly oriented, densely packed dielectric nanowires as an excellent light trapping scaffold." NANOSCALE , vol.9, no.43, pp.16652-16660, 2017

Ghobadi, A. Et Al. (2017) . "97 percent light absorption in an ultrabroadband frequency range utilizing an ultrathin metal layer: randomly oriented, densely packed dielectric nanowires as an excellent light trapping scaffold." NANOSCALE , vol.9, no.43, pp.16652-16660.

@article{article, author={Amir Ghobadi Et Al. }, title={97 percent light absorption in an ultrabroadband frequency range utilizing an ultrathin metal layer: randomly oriented, densely packed dielectric nanowires as an excellent light trapping scaffold}, journal={NANOSCALE}, year=2017, pages={16652-16660} }