Dual Gate Microsensors and Nanomaterials for Chemical Detection

CMOS-based chemical microsensors.

Hydrogel-based microsensors for wireless chemical monitoring.

We report fabrication and characterization of a new hydrogel-based microsensor for wireless chemical monitoring. The basic device structure is a high-sensitivity capacitive pressure sensor coupled to a stimuli-sensitive hydrogel that is confined between a stiff porous membrane and a thin glass diaphragm. As small molecules pass through the porous membrane, the hydrogel swells and deflects the d...

islanding detection methods for microgrids

امروزه استفاده از منابع انرژی پراکنده کاربرد وسیعی یافته است . اگر چه این منابع بسیاری از مشکلات شبکه را حل می کنند اما زیاد شدن آنها مسائل فراوانی برای سیستم قدرت به همراه دارد . استفاده از میکروشبکه راه حلی است که علاوه بر استفاده از مزایای منابع انرژی پراکنده برخی از مشکلات ایجاد شده توسط آنها را نیز منتفی می کند . همچنین میکروشبکه ها کیفیت برق و قابلیت اطمینان تامین انرژی مشترکان را افزایش ...

On modelling heat transfer in chemical microsensors

In the present paper heat transfer in a uid is considered. The Oberbeck-Boussinesq equations for stream function and vorticity are solved by a nite diierence method. In the presence of very strong convection puls type solutions occure. The results are applied in the design of microsensors and compared with experimental data.

CMOS Chemical Microsensors Based on Resonant Cantilever Beams

We present a chemical gas sensor based on a resonating cantilever beam in CMOS MEMS technology. The sensor is actuated employing electrothermal actuation. Thus, for a 300 μ m long beam vibration amplitudes of 6.5 nm per mW heating power are achieved. The vibrations are detected with piezoresistors in a Wheatstone bridge scheme. Detection sensitivities above 200 μ V per mW heating power are meas...