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DNA-Based Fabrication for Nanoelectronics.

Xinpei DaiQian LiAli K AldalbahiLihua WangChun-Hai FanXiaoguo Liu
Published in: Nano letters (2020)
The bottom-up DNA-templated nanoelectronics exploits the unparalleled self-assembly properties of DNA molecules and their amenability with various types of nanomaterials. In principle, nanoelectronic devices can be bottom-up assembled with near-atomic precision, which compares favorably with well-established top-down fabrication process with nanometer precision. Over the past decade, intensive effort has been made to develop DNA-based nanoassemblies including DNA-metal, DNA-polymer, and DNA-carbon nanotube complexes. This review introduces the history of DNA-based fabrication for nanoelectronics briefly and summarizes the state-of-art advances of DNA-based nanoelectronics. In particular, the most widely applied characterization techniques to explore their unique electronic properties at the nanoscale are described and discussed, including scanning tunneling microscopy, conductive atomic force microscopy, and Kelvin probe force microscopy. We also provide a perspective on potential applications of DNA-based nanoelectronics.
Keyphrases
  • single molecule
  • circulating tumor
  • cell free
  • atomic force microscopy
  • nucleic acid
  • high resolution
  • circulating tumor cells
  • living cells
  • high speed
  • risk assessment
  • climate change
  • high throughput
  • single cell