Improving lateral flow assay performance using computational modeling
D Gasperino, T Baughman, HV Hsieh… - Annual review of …, 2018 - annualreviews.org
The performance, field utility, and low cost of lateral flow assays (LFAs) have driven a
tremendous shift in global health care practices by enabling diagnostic testing in previously …
tremendous shift in global health care practices by enabling diagnostic testing in previously …
Role and importance of surface heterogeneities in transport of particles in saturated porous media
Abstract Knowledge of particle deposition and transport in saturated porous media is of
significant importance for various engineered applications and environmental concerns …
significant importance for various engineered applications and environmental concerns …
Retention of sulfidated nZVI (S-nZVI) in porous media visualized by X-ray μ-CT–the relevance of pore space geometry
AA Schiefler, S Bruns, D Müter, K Uesugi… - Environmental …, 2022 - pubs.rsc.org
Obtaining pore scale knowledge about retention mechanisms of nanoparticles (NP) is
inherently difficult and can in turn restrict accurate forward prediction. Herein, an X-ray …
inherently difficult and can in turn restrict accurate forward prediction. Herein, an X-ray …
[HTML][HTML] Unveiling trends in migration of iron-based nanoparticles in saturated porous media
V Veselská, L Magherini, C Bianco, J Šembera… - Journal of …, 2024 - Elsevier
Nanoscale zero-valent iron (nZVI) particles are routinely used for environmental
remediation, but their transport dynamics in different settings remain unclear, hindering …
remediation, but their transport dynamics in different settings remain unclear, hindering …
Pore-scale simulation of nanoparticle transport and deposition in a microchannel using a Lagrangian approach
The application of nanoparticles to a fluid improves heat transfer and hydrodynamics,
especially in porous media. To analyze the flow of nanoparticles and heat transfer in porous …
especially in porous media. To analyze the flow of nanoparticles and heat transfer in porous …
Simulation of colloid transport and retention using a pore‐network model with roughness and chemical heterogeneity on pore surfaces
Colloid transport and retention in porous media is a common phenomenon in both nature
and industry. However, many questions remain on how to obtain colloid transport and …
and industry. However, many questions remain on how to obtain colloid transport and …
[HTML][HTML] Four-dimensional X-ray micro-tomography imaging of dynamic processes in geosciences
Résumé The dynamic response of rocks to thermal, hydrodynamical, mechanical, and
geochemical solicitations is of fundamental interest in several disciplines of geosciences …
geochemical solicitations is of fundamental interest in several disciplines of geosciences …
Prediction of collector contact efficiency for colloid transport in porous media using Pore-Network and Neural-Network models
Conventional colloid filtration theory (CFT) uses the single collector contact efficiency (η) to
describe the mass transfer of colloids to a collector surface. However, this approach neglects …
describe the mass transfer of colloids to a collector surface. However, this approach neglects …
Transport and deposition of nanoparticles in porous media at the pore scale using an Eulerian-Lagrangian method
Background Nanoparticle deposition in a subsurface environment decreases the amount of
material in the bulk fluid, increases surface roughness, and affects nanofluid flow …
material in the bulk fluid, increases surface roughness, and affects nanofluid flow …
Colloid Transport in Bicontinuous Nanoporous Media
Colloid transport and retention in porous media are critical processes influencing various
Earth science applications, from groundwater remediation to enhanced oil recovery. These …
Earth science applications, from groundwater remediation to enhanced oil recovery. These …