Silicon Nanotweezers with Adjustable and Controllable Gap for the Manipulation and Characterization of DNA Molecules - Concepedia

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Silicon Nanotweezers with Adjustable and Controllable Gap for the Manipulation and Characterization of DNA Molecules

15

Citations

9

References

2006

Year

Christophe Yamahata, Tetsuya Takekawa, Kenjiro Ayano, Maho Hosogi, Momoko Kumemura, Bernard Legrand, Dominique Collard, Gen Hashiguchi, Hiroyuki Fujita

Unknown Venue

NanosensorsEngineeringNanodevicesDna AnalysisMolecular BiologyMicroelectromechanical SystemsBiomedical EngineeringMicro-electromechanical SystemDna NanotechnologyMicromachinesDeep Reactive IonBiosensing SystemsBiomedical DevicesDna ComputingMicrofluidicsBiophysicsNanoroboticsNanobiotechnologyNanotechnologySilicon NanotweezersDna ReplicationMolecular EngineeringControllable GapMicro TechnologyDna MoleculesBiomedical SensorsMicrofabricationBiomedical DiagnosticsNatural SciencesBioelectronicsQuality FactorNano Electro Mechanical SystemLab-on-a-chipNanofabrication

Abstract

We describe electrostatically actuated silicon nanotweezers which are intended for the manipulation and characterization of DNA molecules. The fabrication process combines KOH etching and deep reactive ion etching (DRIE) on silicon-on-insulator (SOI) wafer to form sharp nanotips and high aspect ratio microstructures, respectively. The microelectromechanical system (MEMS) consists of a pair of opposing tips, the distance of which can be accurately adjusted thanks to a high resolution differential capacitive sensor. The device shows a resolution of 5 nm for a displacement range of 3 μm (static mode). It has a resonant frequency at 2 kHz and a quality factor of 40 in air, and 550 in vacuum.

References

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