Add to ORKGIn this paper we describe a new, simple and cheap silicon device operating at high temperature at a very low power of a few mW. The essential part of the device is a nano-size conductive link 10-100 nm in size (the so-called antifuse) formed in between two poly-silicon electrodes separated by a thin SiO2 layer. The device can be utilized in chemical sensors or chemical micro-reactors requiring high temperature and very low power consumption e.g. in portable, battery operated systems. As a direct application, we mention a gas sensor (i.e. Pellistor) for hydrocarbons (butane, methane, propane, etc.) based on temperature changes due to the catalytic combustion of hydrocarbons. The power consumed by our device is at about 2% of the power consum...
There has been an increasing demand of hand held battery operated gas monitors because of their wide...
AbstractHere we report on the successful low-temperature growth of zinc oxide nanowires (ZnONWs) on ...
This paper presents a monolithic chemical gas sensor system fabricated in industrial CMOS-technology...
In this paper we describe a new, simple and cheap silicon device operating at high temperature at a ...
In this paper we describe a new, simple, and cheap silicon sensor operating at a high temperature of...
We designed a CMOS compatible hot-surface silicon device operating at a power down to sub-µW. It has...
There is considerable interest in the development of low-cost, low-power resistive sensors for possi...
We designed a silicon-processing compatible, simple, and cheap device operating at a power down to s...
Downsizing efforts in gas-sensing applications lead to ever smaller active elements. Integration wit...
We report on the design, fabrication, and characterisation of a microheater module for chemoresistiv...
Abstract—In this work, a miniaturized hotplate device with a low power consumption of a few milliwat...
This work employs the idea of making micro-scale hot-suvace devices (e.g. sensors, flow meters, micr...
maintaining a hot surface by means of dissipating power at a nano-scale conductive link. The link is...
This work employs the idea of making micro-scale hot-suvace devices (e.g. sensors, flow meters, micr...
This work employs the idea of maintaining a hot surface by means of dissipating power at a nano-scal...
There has been an increasing demand of hand held battery operated gas monitors because of their wide...
AbstractHere we report on the successful low-temperature growth of zinc oxide nanowires (ZnONWs) on ...
This paper presents a monolithic chemical gas sensor system fabricated in industrial CMOS-technology...
In this paper we describe a new, simple and cheap silicon device operating at high temperature at a ...
In this paper we describe a new, simple, and cheap silicon sensor operating at a high temperature of...
We designed a CMOS compatible hot-surface silicon device operating at a power down to sub-µW. It has...
There is considerable interest in the development of low-cost, low-power resistive sensors for possi...
We designed a silicon-processing compatible, simple, and cheap device operating at a power down to s...
Downsizing efforts in gas-sensing applications lead to ever smaller active elements. Integration wit...
We report on the design, fabrication, and characterisation of a microheater module for chemoresistiv...
Abstract—In this work, a miniaturized hotplate device with a low power consumption of a few milliwat...
This work employs the idea of making micro-scale hot-suvace devices (e.g. sensors, flow meters, micr...
maintaining a hot surface by means of dissipating power at a nano-scale conductive link. The link is...
This work employs the idea of making micro-scale hot-suvace devices (e.g. sensors, flow meters, micr...
This work employs the idea of maintaining a hot surface by means of dissipating power at a nano-scal...
There has been an increasing demand of hand held battery operated gas monitors because of their wide...
AbstractHere we report on the successful low-temperature growth of zinc oxide nanowires (ZnONWs) on ...
This paper presents a monolithic chemical gas sensor system fabricated in industrial CMOS-technology...