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Method of Fabricating a Carbyne Based Nanofluidic Device for High Spatial Resolution in DNA Sequencing and Biomolecule Characterization
About
Nanofluidic device based DNA sequencing using nanopores and nanochannels has shown tremendous promises in providing a rapid, portable, and cost-effective tool for point-of-care genomic analysis. Significant progress in the technique has been made in the last decade resulting in the development of the first commercial nanopore product.
Key Benefits
* Single-base accuracy in DNA sequencing * Direct electrical sensing without the need for complex sample pretreatments * Sensor integration process compatible with existing MEMS techniques * Sensor designed for portable systems and on-site analysis
Applications
* Rapid biocontamination inspection for food safety, environmental safety, boarder security * Rapid human DNA identification for social security, public safety, and homeland security * Rapid DNA verification of gene-edited cells for human health, and medical safety * Rapid DNA recognition for disease identification, spreading tracing, and prevention