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Learn about solid state nanopores as a promising technology for DNA sequencing and storage applications in this 28-minute conference presentation. Explore the complete process from nanopore fabrication to signal measurement through a coding channel and systems integration perspective. Discover how nanopores compare to other state-of-the-art sequencing technologies and understand their potential for VLSI integration on CMOS wafers. Examine the lithographic processes used in pore fabrication and their constraints on overall system design. Understand the physical layer mechanisms that convert DNA strand motion into detectable electrical signals, including the geometric and random motion factors that cause signal distortion and intersymbol interference. Investigate the major challenge of low signal-to-noise ratios in solid state nanopores, including noise sources and mitigation strategies through pore design and signal filtering. Gain insights into the electrochemical properties that make nanopores unique compared to traditional electronic components and explore future challenges and development directions in this emerging field.
