Ordered Arrays of Dual-diameter Nanopillars for Maximized Optical Absorption

Overview

Journal Nano Lett

Publisher American Chemical Society

Specialty Biotechnology

Date 2010 May 25

PMID 20491498

Citations 19

Authors

Zhiyong Fan

Rehan Kapadia

Paul W Leu

Xiaobo Zhang

Yu-Lun Chueh

Kuniharu Takei

Kyoungsik Yu

Arash Jamshidi

Asghar A Rathore

Daniel J Ruebusch

Ming Wu

Ali Javey

Affiliations

Soon will be listed here.

Abstract

Optical properties of highly ordered Ge nanopillar arrays are tuned through shape and geometry control to achieve the optimal absorption efficiency. Increasing the Ge materials filling ratio is shown to increase the reflectance while simultaneously decreasing the transmittance, with the absorbance showing a strong diameter dependency. To enhance the broad band optical absorption efficiency, a novel dual-diameter nanopillar structure is presented, with a small diameter tip for minimal reflectance and a large diameter base for maximal effective absorption coefficient. The enabled single-crystalline absorber material with a thickness of only 2 μm exhibits an impressive absorbance of ∼99% over wavelengths, λ = 300-900 nm. These results enable a viable and convenient route toward shape-controlled nanopillar-based high-performance photonic devices.

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