Adsorption of Forever Chemical Pollutants: The Physical Chemistry of PFAS Near Surfaces
Current adsorption‐based remediation techniques for removing per‐ and polyfluoroalkyl substances (PFAS) from water are limited by knowledge gaps on PFAS behavior near solid surfaces. This review provides a state of the art on theoretical and experimental aspects of PFAS adsorption.
Nada Ben Amor +3 more
wiley +1 more source
Nanoparticle detection by solid state nanopore integrated into a reusable microfluidic device [PDF]
International audienceSolid-state nanopores can be used as electrical biosensors at the single molecule resolution. Such high resolution sensors provide a promising approach to address societal challenges in health and biotechnology.
Pelta, Juan +7 more
core +4 more sources
Surveying silicon nitride nanopores for glycomics and heparin quality assurance
The complexity of polysaccharides significantly complicates their analysis in comparison to other biopolymers. Here, the authors demonstrate that solid-state silicon nitride nanopore sensors can be used to reliably detect native polysaccharides and to ...
Buddini Iroshika Karawdeniya +4 more
doaj +1 more source
Threading Immobilized DNA Molecules through a Solid-State Nanopore at >100 μs per Base Rate [PDF]
In pursuit of developing solid-state nanopore-based DNA sequencing technology, we have designed and constructed an apparatus that can place a DNA-tethered probe tip near a solid-state nanopore, control the DNA moving speed, and measure the ionic current ...
Jiali Li (436886) +4 more
core +1 more source
All‐Flex Plasma Patch for In Vivo Delivery of Reactive Species
A fully flexible plasma patch enables stable, conformal treatment on complex biological surfaces and enhances transdermal delivery of reactive species. This platform achieves significant tumor suppression in vivo and reveals coordinated regulation of calcium signaling, metabolism, and programmed cell death, providing a promising strategy for safe and ...
Luxiang Zhao +8 more
wiley +1 more source
The Potential of Nanopore Technologies in Peptide and Protein Sensing for Biomarker Detection
The increasing demand for high-throughput, real-time, and single-molecule protein analysis in precision medicine has propelled the development of novel sensing technologies.
Iuliana Șoldănescu +5 more
doaj +1 more source
Data analysis methods for solid-state nanopores
We describe a number of techniques for the analysis of solid-state nanopore ionic current traces and introduce a new package of Matlab analysis scripts with GUI front ends. We discuss methods for the detection of the local baseline and propose a new detection algorithm that bypasses some of the classical weaknesses of moving-average detection.
Plesa, Calin, Dekker, Cees
openaire +3 more sources
Data for Solid-State Nanopore Real Time Assay for Monitoring Cas9 Endonuclease Reactivity [PDF]
Nanopore translocation data used for the associated manuscript "Solid-State Nanopore Real Time Assay for Monitoring Cas9 Endonuclease Reactivity".
Weckman, Nicole E. +3 more
core +1 more source
Characterization of DNA duplex unzipping through a sub-2 nm solid-state nanopore [PDF]
The unzipping and translocation of DNA duplexes through a sub-2 nm SiNx solid-state nanopore have been demonstrated by well-resolved three-level blockades.
Farkhondeh Fathi +8 more
core +1 more source
Nanopore‐Based Protein Deceleration and Sensing Using Graphene/Si3N4 Dual Membrane Cavity
A graphene/Si3N4 dual membrane cavity system achieves multi‐stage protein deceleration through spatial geometry. Multi‐level current traces provide high‐resolution spatial localization and early warning signals. ABSTRACT Sequencing of protein with nanopores has emerged as a powerful tool offering rapid readout, high accuracy, low cost, and portability.
Yubin Cao, Junzhou He, Wei Si
wiley +1 more source

