Selective Single-Molecule Nanopore Detection of mpox A29 Protein Directly in Biofluids

“…Iontronic sensing on the basis of confined ion transport has emerged as an effective platform for analyzing single molecules using the principle of RPS. The RPS mechanism allows the detection of single molecules, such as ions/molecules, , and macromolecules like DNA/RNA/proteins, ,− with extraordinary sensitivity, enabling the extraction of their structural information. As single-molecule detection methods gain increasing importance in diagnostic applications, iontronics play a significant role in advancing the capabilities of single-molecule sensing.…”

Iontronic Sensing Based on Confined Ion Transport

“…Iontronic sensing on the basis of confined ion transport has emerged as an effective platform for analyzing single molecules using the principle of RPS. The RPS mechanism allows the detection of single molecules, such as ions/molecules, , and macromolecules like DNA/RNA/proteins, ,− with extraordinary sensitivity, enabling the extraction of their structural information. As single-molecule detection methods gain increasing importance in diagnostic applications, iontronics play a significant role in advancing the capabilities of single-molecule sensing.…”

Iontronic Sensing Based on Confined Ion Transport

“…4 Since its discovery in 1996, this methodology has been extensively utilized for the characterization and detection of single molecules and DNA, as well as for protein sequencing applications. [5][6][7][8][9] An alternative paradigm involves using current-voltage (I-V) measurements in nanopores that display ion current rectification (ICR). 10,11 ICR refers to the non-ohmic I-V response exhibited by asymmetric nanopores, where the current magnitudes measured at equal but opposite potentials differ.…”

Aptamer-functionalized nanopipettes: a promising approach for viral fragment detection via ion current rectification

Tracking flaviviral protease conformational dynamics by tuning single-molecule nanopore tweezers