Add to ORKGThe interest in miniaturization of modern chemical and medical sensors is steadily increasing. However, when employing methods and fabrication procedures especially developed for microelectronics, one may encounter new and unpredictable problems for applications in aqueous media. For instance, in microelectronics often a dual metal layer system is employed for making electrical contacts. In a solution such a contact may result in galvanic reactions and/or may dissolved in the cleaning agents used for sterilization of medical devices. To address such issues we have employed an all-silicon based process technology for fabrication of sturdy and reliable devices with integrated poly-Silicon electrodes that tolerate most chemical environments. I...
Porous silicon has a particularly large surface area available in a limited volume, tens or hundreds...
This work addresses a new kind of silicon based chemical sensor that combines the reliability and st...
With an increasing need for homeland security, and breakthrough advancements in sensing applications...
The thesis presents the research results obtained while studying novel chemical strategies for prepa...
The fabrication process for a potentiometric silicon sensor will be described. The sensor was fabric...
Part I of this thesis describes the formation of a silicon/polypyrrole junction utilizing a new meth...
Surface micromachining using deposited polysilicon films is a technology that is widely used for the...
Progress in semiconductor technology has been very fast in the latest years. Silicon devices are ava...
In this paper we explore a multi-step synthetic strategy toward fabrication of monolayer-modified Si...
Sensor miniaturization can be reached by the integration of potentiometric sensors with silicon tech...
A description of a three-level mechanical polysilicon surface-micromachining technology including a ...
The suitability of polysilicon as a material for the fabrication of interdigitated electrodes and th...
Recent advances in materials, mechanics design and microfabrication technologies are beginning to es...
An ideal environmental sensor has zero baseline drift, a fast response time, is sensitive and select...
The paper highlights some of the significant works done in the field of medical and biomedical sensi...
Porous silicon has a particularly large surface area available in a limited volume, tens or hundreds...
This work addresses a new kind of silicon based chemical sensor that combines the reliability and st...
With an increasing need for homeland security, and breakthrough advancements in sensing applications...
The thesis presents the research results obtained while studying novel chemical strategies for prepa...
The fabrication process for a potentiometric silicon sensor will be described. The sensor was fabric...
Part I of this thesis describes the formation of a silicon/polypyrrole junction utilizing a new meth...
Surface micromachining using deposited polysilicon films is a technology that is widely used for the...
Progress in semiconductor technology has been very fast in the latest years. Silicon devices are ava...
In this paper we explore a multi-step synthetic strategy toward fabrication of monolayer-modified Si...
Sensor miniaturization can be reached by the integration of potentiometric sensors with silicon tech...
A description of a three-level mechanical polysilicon surface-micromachining technology including a ...
The suitability of polysilicon as a material for the fabrication of interdigitated electrodes and th...
Recent advances in materials, mechanics design and microfabrication technologies are beginning to es...
An ideal environmental sensor has zero baseline drift, a fast response time, is sensitive and select...
The paper highlights some of the significant works done in the field of medical and biomedical sensi...
Porous silicon has a particularly large surface area available in a limited volume, tens or hundreds...
This work addresses a new kind of silicon based chemical sensor that combines the reliability and st...
With an increasing need for homeland security, and breakthrough advancements in sensing applications...