Add to ORKGThe sensing of chemicals and biochemical molecules using several porous silicon optical microsensors, based both on single-layer interferometers and resonant-cavity-enhanced microstructures, is reported. The operation of both families of sensors is based on the variation of the average refractive index of the porous silicon region, due to the interaction with chemical substances either in vapor or liquid state, which results in marked shifts of the device reflectivity spectra. The well established single-layer configuration has been used to test a new chemical approach based on Si-C bonds for covalent immobilization of biological molecules, as probe, in a stable way on the porous silicon surface. Preliminary results on complement...
Advancements in the field of optical sensors have resulted in an innovative class of microoptical se...
For over 30 years, porous silicon as a material has been leveraged for its usefulness in biomedical ...
With an increasing need for homeland security, and breakthrough advancements in sensing applications...
The sensing of chemicals and biochemical molecules using several porous silicon optical microsensor...
Porous silicon is a very attractive material due to its intense visible photoluminescence at room te...
An ideal environmental sensor has zero baseline drift, a fast response time, is sensitive and select...
The optical properties of porous silicon microcavities are strongly dependent on the environment. Fo...
Title: Porous silicon-based optical sensors of chemical species for gas phase Author: Bc. Jiří Liška...
A simple geometry optical sensor based on porous silicon technology is theoretically and experimenta...
We present a short review of recent progress in the field of optical gas sensors based on porous sil...
We present the preparation and characteristics of liquid-phase sensors based on nano-porous silicon ...
The present work reports the thermal annealing process, the number of layer and electrochemical proc...
International audienceWe study the effect of different surface functionalization methods on the sens...
The optical and electrical properties of porous silicon microcavities are strongly dependent on the ...
Abstract- Porous silicon based sensors were tested in the presence of various linear aliphatic alcoh...
Advancements in the field of optical sensors have resulted in an innovative class of microoptical se...
For over 30 years, porous silicon as a material has been leveraged for its usefulness in biomedical ...
With an increasing need for homeland security, and breakthrough advancements in sensing applications...
The sensing of chemicals and biochemical molecules using several porous silicon optical microsensor...
Porous silicon is a very attractive material due to its intense visible photoluminescence at room te...
An ideal environmental sensor has zero baseline drift, a fast response time, is sensitive and select...
The optical properties of porous silicon microcavities are strongly dependent on the environment. Fo...
Title: Porous silicon-based optical sensors of chemical species for gas phase Author: Bc. Jiří Liška...
A simple geometry optical sensor based on porous silicon technology is theoretically and experimenta...
We present a short review of recent progress in the field of optical gas sensors based on porous sil...
We present the preparation and characteristics of liquid-phase sensors based on nano-porous silicon ...
The present work reports the thermal annealing process, the number of layer and electrochemical proc...
International audienceWe study the effect of different surface functionalization methods on the sens...
The optical and electrical properties of porous silicon microcavities are strongly dependent on the ...
Abstract- Porous silicon based sensors were tested in the presence of various linear aliphatic alcoh...
Advancements in the field of optical sensors have resulted in an innovative class of microoptical se...
For over 30 years, porous silicon as a material has been leveraged for its usefulness in biomedical ...
With an increasing need for homeland security, and breakthrough advancements in sensing applications...