Enhancement of the photoluminescence property of hybrid structures using single-walled carbon nanotubes/pyramidal porous silicon surface

Abstract: This work presents additional physical results about the enhancement of the photoluminescence property of hybrid structures using single walled carbon nanotubes/pyramidal porous silicon surface, in comparison with what has already been published on these structures in terms of synthesis conditions and FTIR investigations as reported recently by the same authors in Journal of Alloys and Compounds 694 (2017) 1036 1044. Herein, the effect of the single walled carbon nanotubes (SWCNTs) layer on the optical propert… Show more

“…the distribution of traps in the material. 68,69 The incorporation of Pr 3+ ion affects at least as much the substance's order as the structure impurities in ZnO. 70…”

The structure and photoluminescence of a ZnO phosphor synthesized by the sol gel method under praseodymium doping

“…the distribution of traps in the material. 68,69 The incorporation of Pr 3+ ion affects at least as much the substance's order as the structure impurities in ZnO. 70…”

The structure and photoluminescence of a ZnO phosphor synthesized by the sol gel method under praseodymium doping

“…The vibration of the Si-O bonds resulted in the absorption peak at about 460 cm −1 . 49,50 The FTIR pattern of monocrystalline silicon after CMP similarly exhibits an apparent absorption peak at about 1095 cm −1 , although the peak is narrowed. This peak may be impacted by Si-O-Ce and also occurs in this area.…”

Unprecedented atomic surface of silicon induced by environmentally friendly chemical mechanical polishing

“…As already mentioned, one of the most advantageous properties of PSi is its large surface area (up to 800 m 2 g –1 ) and high internal volume, allowing for numerous biomolecular interactions to occur over a small working area. Furthermore, PSi can serve as a host matrix for diverse compounds and nanomaterials, including polymers, − metals, − quantum dots (QDs), − fluorescent molecules, − graphene oxide (GO), − carbon nanotubes (CNTs), , and carbon dots (C-dots) . The main advantage of these PSi-based hybrid systems is that they can exhibit superior sensing performance in comparison to the individual components, such as signal enhancement, higher sensitivity, improvement of signal stability, and dual-mode detection.…”

“…Studies on the incorporation of carbon-based materials, such as graphene oxide (GO) − and carbon nanotubes (CNTs), ,, into different PSi nanostructures have shown interesting optical properties of the resulting hybrids. For example, GO/PSi hybrid systems were found to exhibit significant PL enhancement and were therefore suggested as potentially suitable transducers for biosensing applications .…”

Porous Silicon-Based Photonic Biosensors: Current Status and Emerging Applications