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A Multipurpose CMOS Platform for Nanosensing.

Alberto Bonanno1, Alessandro Sanginario2, Simone L Marasso3

  • 1Center for Sustainables Futures@PoliTo, Istituto Italiano di Tecnologia, C.so Trento 21, 10129 Torino, Italy. ing.albertobonanno@gmail.com.

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|December 6, 2016
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Summary
This summary is machine-generated.

This study introduces a novel Micro-for-Nano (M4N) chip for customizable nanosensor arrays. The system efficiently detects changes in nanowire resistance, demonstrating high sensitivity to UV light exposure.

Keywords:
CMOS interfaceCMOS post-processingmultipurpose sensing platformnanosenorsnanowires

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Area of Science:

  • Nanotechnology
  • Materials Science
  • Electrical Engineering

Background:

  • Developing customizable nanosensor platforms is crucial for advanced detection systems.
  • Integrating nanowires (NWs) with semiconductor technology offers enhanced sensing capabilities.

Purpose of the Study:

  • To present a Micro-for-Nano (M4N) chip for assembling and sensing functionalized nanowires on CMOS technology.
  • To demonstrate a customizable platform for various nanosensing applications.

Main Methods:

  • Utilized dielectrophoresis (DEP) for controlled nanowire assembly on gold-coated microelectrodes.
  • Integrated a CMOS read-out circuit (ROC) for in situ electrical property sensing of individual nanowires.
  • Connected the M4N chip to a microcontroller for data processing and a workstation for real-time visualization.

Main Results:

  • Successfully integrated ZnO nanowires onto the M4N chip for UV-light sensing.
  • Detected an 80% resistance variation in a single ZnO nanowire under UV exposure (1 nW-229 nW flux).
  • Validated the platform's efficiency for materials changing capacitance or resistance with external stimuli.

Conclusions:

  • The M4N chip provides an efficient and customizable platform for developing diverse nanosensors.
  • This technology enables sensitive detection of external stimuli through nanowire property modulation.
  • The system proves effective for a wide range of materials exhibiting stimulus-dependent electrical changes.