Advances in Porous Semiconductor Research

79.8K

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99

authors

18

articles

Advances in Porous Semiconductor Research

79.8K

views

99

authors

18

articles

Editorial

06 March 2020

Editorial: Advances in Porous Semiconductor Research

Thierry Djenizian

and

Nicolas H. Voelcker

1,887 views

1 citations

Editors

2

Thierry Djenizian

MINES Saint-Etienne, Institut Mines-Télécom

Nicolas Hans Voelcker

Monash University

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Since the discovery of the luminescent properties of porous Si by L. Canham in 1990, the anodization process has attracted enormous interest for the fabrication of porous semiconductors. To date, this technique has been widely used to design new materials with advanced physico-chemical properties for many applications in optics, microelectronics, energy, biology and medicine.

This Research Topic highlights significant advances related to the manufacturing, characterization, properties and applications of porous semiconductors (Si, Ge, III-V compounds, TiO₂ nanotubes)

Topical areas include but are not limited to the electrochemical and metal-assisted chemical etching, surface chemistry and functionalization, pore filling and nanoparticle decoration, novel nanostructures and microfabrication techniques, micro photonics and luminescence, micro systems and electronics, medical applications, imaging and therapy, energy harvesting, storage and conversion, sensors and biosensors, as well as emerging applications.

Since the discovery of the luminescent properties of porous Si by L. Canham in 1990, the anodization process has attracted enormous interest for the fabrication of porous semiconductors. To date, this technique has been widely used to design new materials with advanced physico-chemical properties for many applications in optics, microelectronics, energy, biology and medicine.

This Research Topic highlights significant advances related to the manufacturing, characterization, properties and applications of porous semiconductors (Si, Ge, III-V compounds, TiO₂ nanotubes)

Topical areas include but are not limited to the electrochemical and metal-assisted chemical etching, surface chemistry and functionalization, pore filling and nanoparticle decoration, novel nanostructures and microfabrication techniques, micro photonics and luminescence, micro systems and electronics, medical applications, imaging and therapy, energy harvesting, storage and conversion, sensors and biosensors, as well as emerging applications.

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Editors

Thierry Djenizian

MINES Saint-Etienne, Institut Mines-Télécom

Nicolas Hans Voelcker

Monash University

Impact

79,789 Total views

61,005 Article views

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1,767 Topic views

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Frontiers in Chemistry

Chemical and Process Engineering

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Frontiers in Bioengineering and Biotechnology

Chemical and Process Engineering

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