Skip to content
Furst Lab
Furst Lab
  • Home
  • People
  • Research
    • Designing Sensors
    • Antibiotic Development
    • Environmental Remediation
    • Clean Energy
  • Publications
  • Open Positions
  • Contact

Two-Electrode Platforms for Protein Biosensing based on Charge Transport through the DNA Double Helix,” Electroanalytical Chemistry

2017 August

Two-Electrode Platforms for Protein Biosensing based on Charge Transport through the DNA Double Helix,” Electroanalytical Chemistry
Chapter in Electroanalytical Chemistry: A Series of Advances
Furst, A. L.; Hill, M. G.; Barton, J. K., edited by A. Bard and C. Zoski

Posted in Electrochemistry
Post navigation
Quantifying Hormone Disruptors with an Engineered Bacterial Biosensor →
← Cucurbit[6]uril-Promoted Click Chemistry for Protein Modification

News

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

Recent Publications

  • Surface Requirements for Optimal Biosensing with Disposable Gold Electrodes November 12, 2021
  • Strategies for Engineering Affordable Technologies for Point-of-Care Diagnostics of Infectious Diseases October 6, 2021
  • A Microbial Electrochemical Technology to Detect and Degrade Organophosphate Pesticides September 21, 2021

  • 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 Twitter

  • Campus Map & Direction


© 2019 - 2022 MIT : Department of Chemical Engineering