This work employs the idea of maintaining a hot surface by means of dissipating power at a nano-scale conductive link. The link is created between two polysilicon electrodes separated by a dielectric (a capacitor-like structure). From modelling, a link of 10 nm in diameter should be possible to maintain the surface temperature ranging between 750 and 1150 K within the surface diameter of 2 μm by absorbing a 3.3 mW of electric power. The devices can also be designed in such a way that the hot surface area is reduced to a sub-μm-size hotspot. The main advantage of the proposed idea is decoupling the electrical resistance and thermal resistance of the device. In this paper, two device structures based on antifuse technology are described. Both...
In this paper we describe a new, simple, and cheap silicon sensor operating at a high temperature of...
Self-heating operation, or the use of the resistance-probing signal to warm up and control the tempe...
A new microfabricated device for heating and sensing in gases is presented. It is based on the resis...
This work employs the idea of maintaining a hot surface by means of dissipating power at a nano-scal...
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 making micro-scale hot-suvace devices (e.g. sensors, flow meters, micr...
We designed a CMOS compatible hot-surface silicon device operating at a power down to sub-µW. It has...
In this paper we describe a new, simple and cheap silicon device operating at high temperature at a ...
In this work, a new fabrication process is investigated for ultralow\ud power, microelectronic hotpl...
This work extends our previously reported idea of using the nano-scale conductive link (antifuse) as...
In this work, a miniaturized hotplate device with a low power consumption of a few milliwatts and a ...
We designed a silicon-processing compatible, simple, and cheap device operating at a power down to s...
Abstract—In this work, a miniaturized hotplate device with a low power consumption of a few milliwat...
Ultra low-power electrical hotplates are presented based on Ohmic heating of a small conductive volu...
In this paper we describe a new, simple, and cheap silicon sensor operating at a high temperature of...
Self-heating operation, or the use of the resistance-probing signal to warm up and control the tempe...
A new microfabricated device for heating and sensing in gases is presented. It is based on the resis...
This work employs the idea of maintaining a hot surface by means of dissipating power at a nano-scal...
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 making micro-scale hot-suvace devices (e.g. sensors, flow meters, micr...
We designed a CMOS compatible hot-surface silicon device operating at a power down to sub-µW. It has...
In this paper we describe a new, simple and cheap silicon device operating at high temperature at a ...
In this work, a new fabrication process is investigated for ultralow\ud power, microelectronic hotpl...
This work extends our previously reported idea of using the nano-scale conductive link (antifuse) as...
In this work, a miniaturized hotplate device with a low power consumption of a few milliwatts and a ...
We designed a silicon-processing compatible, simple, and cheap device operating at a power down to s...
Abstract—In this work, a miniaturized hotplate device with a low power consumption of a few milliwat...
Ultra low-power electrical hotplates are presented based on Ohmic heating of a small conductive volu...
In this paper we describe a new, simple, and cheap silicon sensor operating at a high temperature of...
Self-heating operation, or the use of the resistance-probing signal to warm up and control the tempe...
A new microfabricated device for heating and sensing in gases is presented. It is based on the resis...