8 research outputs found
Device characteristics of antenna-coupled metal-insulator-metal diodes (rectenna) using Al2O3, TiO2, and Cr2O3 as insulator layer for energy harvesting applications
Antenna-coupled metal-insulator-metal devices are most potent candidate for future energy harvesting devices. The reason for that they are ultra-high speed devices that can rectify the electromagnetic radiation at high frequencies. In addition to their speed, they are also small devices that can have more number of devices in unit area. In this work, it is aimed design and develop a device which can harvest and detect IR radiation
Model, design, and fabrication of antenna coupled metal-insulator-metal diodes for IR sensing
There is increasing demand for devices operating at room temperature for IR sensing and imaging. Antenna coupled metal-insulator-metal (MIM) diodes are potential candidates in this field. The reasons are miniaturizing features and femtosecond operation of these devices: smaller sizes lead to more pixels in limited areas and quantum tunneling phenomenon leads to faster operation. In this work, it is aimed to design and develop a device that can act as IR detector at room temperature
BiCMOS Embedded Microfluidic Technology Based on Wafer Bonding Techniques for Biosensor Applications
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BiCMOS Integrated Microfluidic Packaging by Wafer Bonding for Lab-on-Chip Applications
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Tracking Cancer Cells with Microfluidic High Frequency DEP Cytometer Implemented on BiCMOS Lab-on-Chip Platform
International audienceIn this paper, a fully BiCMOS integrated microfluidic cell sorting platform for cell properties study is introduced. Operating in the radiofrequency range, the presented device combined Lab-on-Chip and IC technologies to achieve label free cytometry using in flow cell selective dielectrophoresis deviation. Taking benefit of CMOS stack and integration capability, the first prototypes demonstrate the ability to separate cells with different intracellular dielectric properties. These results pave the way to new innovative high throughput integrated IC solutions for detection of rare cells in the frame of cancer researches and treatment
Tracking Cancer Cells with Microfluidic High Frequency DEP Cytometer Implemented on BiCMOS Lab-on-Chip Platform
International audienceIn this paper, a fully BiCMOS integrated microfluidic cell sorting platform for cell properties study is introduced. Operating in the radiofrequency range, the presented device combined Lab-on-Chip and IC technologies to achieve label free cytometry using in flow cell selective dielectrophoresis deviation. Taking benefit of CMOS stack and integration capability, the first prototypes demonstrate the ability to separate cells with different intracellular dielectric properties. These results pave the way to new innovative high throughput integrated IC solutions for detection of rare cells in the frame of cancer researches and treatment