1. Airborne Biomarker Localization Engine (ABLE) for Open Air Point-of-Care Detection
- Author
-
Ma, Jingcheng, Laune, Megan, Li, Pengju, Lu, Jing, Yue, Jiping, Yu, Yueyue, Cleary, Jessica, Oliphant, Kaitlyn, Kessler, Zachary, Claud, Erika C., and Tian, Bozhi
- Subjects
Condensed Matter - Mesoscale and Nanoscale Physics ,Condensed Matter - Soft Condensed Matter ,Quantitative Biology - Quantitative Methods - Abstract
Unlike biomarkers in biofluids, airborne biomarkers are dilute and difficult to trace. Detecting diverse airborne biomarkers with sufficient sensitivity typically relies on bulky and expensive equipment like mass spectrometers that remain inaccessible to the general population. Here, we introduce Airborne Biomarker Localization Engine (ABLE), a simple, affordable, and portable platform that can detect both volatile, non-volatile, molecular, and particulate biomarkers in about 15 minutes. ABLE significantly improves gas detection limits by converting dilute gases into droplets by water condensation, producing concentrated aqueous samples that are easy to be tested. Fundamental studies of multiphase condensation revealed unexpected stability in condensate-trapped biomarkers, making ABLE a reliable, accessible, and high-performance system for open-air-based biosensing applications such as non-contact infant healthcare, pathogen detection in public space, and food safety., Comment: 17 pages, 5 figures. An additional 67-page supplementary materials document containing a detailed description of methods, 15 additional discussions, 30 figures, and 3 tables, will be made available after the manuscript is published after peer-review process
- Published
- 2024