Skip to content
Furst Lab
Furst Lab
  • Home
  • People
  • Research
    • Human Health
    • Environmental Remediation
    • Sustainability
  • Publications
  • Values
  • In Action
  • Contact

Toward multimarker and functional assays from crude cell lysates: controlling spacing and signal amplification in DNA-CT–based bioelectrochemical devices,

2019 April

Toward multimarker and functional assays from crude cell lysates: controlling spacing and signal amplification in DNA-CT–based bioelectrochemical devices
Current Opinion in Electrochemistry
Furst, A. L.; Muren, N. B.; Hill, M. G.

Posted in Disease Diagnostics
Post navigation
Impedance-Based Detection of Bacteria →
← DNA hybridization to control cellular interactions

News

We have open positions for postdocs, grad and undergrad students.
[More Info]

Recent Publications

  • Lanmodulin-Decorated Microbes for Efficient Lanthanide Recovery January 21, 2025
  • Innovative Approach to Sustainable Fertilizer Production: Leveraging Electrically Assisted Conversion of Sewage Sludge for Nutrient Recovery January 13, 2025
  • Dream reactions of CO2 capture, conversion, and beyond December 4, 2024

  • Mailing Address

    Massachusetts Institute of Technology
    Department of Chemical Engineering
    77 Massachusetts Avenue
    Building 66-462
    Cambridge, Massachusetts 02139

  • General Inquires

    Phone: (617) 254-4677
    Email: afurst@mit.edu
    Accessibility

    Follow us on
    Follow us on Twitter

  • Campus Map & Direction


© 2019 - 2025 MIT : Department of Chemical Engineering