We used nanopores for detection of 1-nm-size small drugs, ibuprofen (33 atoms) and sulfamethoxazole (28 atoms), by binding them to a protein (BSA), otherwise they are directly undetectable. Both are used for treating pain and inflammation, and bind to BSA efficiently. One reason why this is relevant and the idea can be extended to other small drugs is that unused pills dumped into toilets, and medications excreted through urine, end up in some amounts in our water supply even after treatments and have consequences on living organisms. Zehui Xia, et al., “Protein-enabled detection of ibuprofen and sulfamethoxazole using solid-state nanopores”, Proteomics, 2022, 2100071.
Devices for Nanoscale Guiding of DNA through a 2D Nanopore, David J. Niedzwiecki, Brian DiPaolo, Chih-Yuan Lin, Alice Castan, Rachael Keneipp, Marija Drndić, ACS Sensors, 6, 7, 2534–2545, 2021.
Invited Article & Cover Art for March 2020 Issue: Detection of single analyte and environmental samples with silicon nitride nanopores: Antarctic dirt particulates and DNA in artificial seawater, David J. Niedzwiecki, Yung-Chien Chou, Zehui Xia, Federico Thei and Marija Drndić, Review of Scientific Instruments 91, 031301 (2020). https://doi.org/10.1063/1.5138210.
Accelerated by Goeppert’s nanochannel chips: 60-100 nm diameter SiN, 100-nm-thick: Translocation of soft phytoglycogen nanoparticles through solid-state nanochannels, W. R. Lenart, W. Kong, W. C. Oltjena, M. J. A. Hore, J. of Mat. Chem. B, 41, (2019). https://pubs.rsc.org/en/content/articlelanding/2019/tb/c9tb01048c#!divAbstract
Goeppert’s SiN pores featured by Dekker lab in “Nanopores–a Versatile Tool to Study Protein Dynamics” by Sonja Schmid & Cees Dekker – arXiv preprint arXiv:2010.07399, 2020.
Exciting work from Dekker lab at Delft University of Technology on trapping proteins using a DNA-origami sphere (shown as a big red ball) and a solid-state nanopore. This “NEOtrap” was facilitated also by Goeppert’s 20-nm-thick SiN chips (email@example.com).
Nuclear pore complexes (NPCs) that regulate selective transport between the nucleus and the cytoplasm. Study facilitated by Goeppert’s products. Published in Nature Communications 2021, by researchers in Netherlands and Sweden. Accelerating science together. Link to paper: https://www.nature.com/articles/s41467-021-22293-y
Goeppert cited for its advance in solid state nanopore sensors.