Authors | Soheila Abbasimofrad, Mohammad Almasi Kashi , Mohammad Noormohammadi , Abdolali Ramazani , |
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Journal | Journal of Physics and Chemistry of Solids |
Presented by | دانشگاه کاشان |
Page number | 221-231 |
Volume number | 118 |
Paper Type | Full Paper |
Published At | 2018-01-14 |
Journal Grade | ISI |
Journal Type | Typographic |
Journal Country | Japan |
Abstract
ThThis study investigates the tunable fabrication of photonic crystals (PCs) based on nanoporous anodic alumina
(NAA) templates through modification of nanopore diameter, affecting the PCs optical response. This was realized
by controlling phosphoric acid concentration (CPh) and anodization current density. This approach along with
chemical etching offers the opportunity to adjust optical band gap in a wide range of wavelengths (from about
400 to 1100 nm). To this end, the effect of CPh on current density and threshold voltage was investigated. To
analyze formation mechanism of resulting multilayers and optimize their optical characteristics, the potential
ratio, span, cycles and charge density were examined, thereby providing a band gap as narrow as 6 nm. The
sensing analysis revealed that the modified multilayer shows enhanced sensitivity to the changes of effective
media inside the nanopores. These findings provide insights into the development of both optical sensors and
optoelectronic nanodevices based on the NAA-based PCs.
(NAA) templates through modification of nanopore diameter, affecting the PCs optical response. This was realized
by controlling phosphoric acid concentration (CPh) and anodization current density. This approach along with
chemical etching offers the opportunity to adjust optical band gap in a wide range of wavelengths (from about
400 to 1100 nm). To this end, the effect of CPh on current density and threshold voltage was investigated. To
analyze formation mechanism of resulting multilayers and optimize their optical characteristics, the potential
ratio, span, cycles and charge density were examined, thereby providing a band gap as narrow as 6 nm. The
sensing analysis revealed that the modified multilayer shows enhanced sensitivity to the changes of effective
media inside the nanopores. These findings provide insights into the development of both optical sensors and
optoelectronic nanodevices based on the NAA-based PCs.
.