Monolithically Integrated Catalyst-Free High Aspect Ratio InAs-on-Insulator (InAsOI) FinFETs for pH Sensing

In this work, we report a novel Indium Arsenide-on-insulator (InAsOI) FinFET platform designed with record high aspect ratio that favors the use of the devices as charge sensors. InAs has very high mobility among III-V semiconductors and an intrinsic surface accumulation layer yielding good ohmic contacts thus making it an interesting choice for chemical and biological sensing platforms. Template Assisted Selective Epitaxy (TASE) enables the integration of III-V highly scaled devices, monolithically integrated on Silicon, within a fully CMOS compatible fabrication scheme hence without any catalyst-induced growth. With a new geometry, high-aspect-ratio (HAR) InAs fins and a new application of pH sensing the versatility of TASE is exhibited. HAR InAs fins, fin height to fin width in excess of 4 for fin width down to 30 nm are fabricated on a Si substrate. The HAR InAs-on-insulator fins are characterized as pH sensors. A sensitivity of 38.8 mV per pH is extracted at 6 mu A drain current from a 40 nm wide 20 multi-finger array.

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Francesco Bellando, Clarissa Convertino, Mihai Adrian Ionescu, Maneesha Rupakula, Fabien Patrick Wildhaber, Junrui Zhang
2020
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https://infoscience.epfl.ch/record/279654?ln=fr

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Monolithically integrated catalyst-free High Aspect Ratio InAs-On-Insulator (InAsOI) FinFETs for pH sensing

Francesco Bellando, Clarissa Convertino, Mihai Adrian Ionescu, Kirsten Emilie Moselund, Maneesha Rupakula, Fabien Patrick Wildhaber, Junrui Zhang

In this work, we report a novel Indium Arsenide-on-insulator (InAsOI) FinFET platform designed with record high aspect ratio that favor the use of the devices as charge sensors. InAs has very high mobility among III-V semiconductors and an intrinsic surface accumulation layer yielding good ohmic contacts thus making it an interesting choice for chemical and biological sensing platforms. Template Assisted Selective Epitaxy (TASE) enables the integration of III-V highly scaled devices, monolithically integrated on Silicon, within a fully CMOS compatible fabrication scheme hence without any catalyst-induced growth. With a new geometry, High-aspect-ratio (HAR) InAs fins and a new application of pH sensing the versatility of TASE is exhibited. HAR InAs fins, fin height to fin width in excess of 4 for fin width down to 30nm are fabricated on a Si substrate. The HAR InAs-on-insulator fins are characterized as pH sensors. A sensitivity of 38.8mV per pH is extracted at 6 microampere drain current from a 40nm wide 20 multi-finger array.

IEEE2019

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