Reduced-order stochastic simulation shows BioFET current shifts from low ctDNA concentrations do not reliably exceed blank thresholds in whole blood due to Debye screening, fluctuations, and noise.
The internet of bio-nano things
3 Pith papers cite this work. Polarity classification is still indexing.
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Microbubble movement in flowing water and blood-like fluids is characterized by experiments and OpenFOAM CFD simulations to support their use as information carriers in confined environments for the Internet of Bio-Nano Things.
Simulations identify a bounded regime where embedded DNA inference reporting improves detection of weak-to-moderate anomalies while remaining competitive in communication cost, though it adds delay and does not outperform simpler methods globally.
citing papers explorer
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Whole-Blood Boundary Analysis of BioFET-Based ctDNA Detection for Intravascular Sensing in Intrabody Nanonetworks
Reduced-order stochastic simulation shows BioFET current shifts from low ctDNA concentrations do not reliably exceed blank thresholds in whole blood due to Debye screening, fluctuations, and noise.
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A Numerical and Experimental Evaluation of Microbubble Communication Using OpenFOAM
Microbubble movement in flowing water and blood-like fluids is characterized by experiments and OpenFOAM CFD simulations to support their use as information carriers in confined environments for the Internet of Bio-Nano Things.
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Embedded DNA Inference in In-Body Nanonetworks: Detection, Delay, and Communication Trade-Offs
Simulations identify a bounded regime where embedded DNA inference reporting improves detection of weak-to-moderate anomalies while remaining competitive in communication cost, though it adds delay and does not outperform simpler methods globally.