Dielectrophoretic separation of micron and submicron particles: A review
This paper provides an overview on separation of micron and submicron sized biological
(cells, yeast, virus, bacteria, etc.) and nonbiological particles (latex, polystyrene, CNTs …
(cells, yeast, virus, bacteria, etc.) and nonbiological particles (latex, polystyrene, CNTs …
Insulator based dielectrophoresis: Micro, nano, and molecular scale biological applications
Insulator based dielectrophoresis (iDEP) is becoming increasingly important in emerging
biomolecular applications, including particle purification, fractionation, and separation …
biomolecular applications, including particle purification, fractionation, and separation …
Electrochemistry's Potential to Reach the Ultimate Sensitivity in Measurement Science
S Goines, JE Dick - Journal of The Electrochemical Society, 2019 - iopscience.iop.org
A holy grail in analytical chemistry is the specific quantification of a single entity, be that
entity an atom, a molecule, a nanoparticle, a virus, or a circulating tumor cell. Analytical …
entity an atom, a molecule, a nanoparticle, a virus, or a circulating tumor cell. Analytical …
Integration of a nanostructured dielectrophoretic device and a surface-enhanced Raman probe for highly sensitive rapid bacteria detection
FR Madiyar, S Bhana, LZ Swisher, CT Culbertson… - Nanoscale, 2015 - pubs.rsc.org
This work reports a synergistic approach to the concentration, detection and kinetic
monitoring of pathogens through the integration of nanostructured dielectrophoresis (DEP) …
monitoring of pathogens through the integration of nanostructured dielectrophoresis (DEP) …
Frequency-selective electrokinetic enrichment of biomolecules in physiological media based on electrical double-layer polarization
Proteomic biomarkers of interest to the early diagnosis of diseases and infections are
present at trace levels versus interfering species. Hence, their selective enrichment is …
present at trace levels versus interfering species. Hence, their selective enrichment is …
Quantifying the dielectrophoretic force on colloidal particles in microfluidic devices
R Abedini-Nassab, J Wirfel, B Talebjedi… - Microfluidics and …, 2022 - Springer
We use theory, simulation, and experiment to quantify the dielectrophoretic force produced
on spherical colloidal particles exposed to an interdigitated electrode array in a microfluidic …
on spherical colloidal particles exposed to an interdigitated electrode array in a microfluidic …
Microscale electrokinetic‐based analysis of intact cells and viruses
A Vaghef‐Koodehi, BH Lapizco‐Encinas - Electrophoresis, 2022 - Wiley Online Library
Miniaturized electrokinetic methods have proven to be robust platforms for the analysis and
assessment of intact microorganisms, offering short response times and higher integration …
assessment of intact microorganisms, offering short response times and higher integration …
Hybrid energy storage device charging
RA Rojeski - US Patent 9,941,709, 2018 - Google Patents
A novel hybrid lithium-ion anode material based on coaxially coated Si shells on vertically
aligned carbon nanofiber (CNF) arrays. The unique cup-stacking graphitic microstructure …
aligned carbon nanofiber (CNF) arrays. The unique cup-stacking graphitic microstructure …
Rapid and selective concentration of bacteria, viruses, and proteins using alternating current signal superimposition on two coplanar electrodes
Dielectrophoresis (DEP) is usually effective close to the electrode surface. Several
techniques have been developed to overcome its drawbacks and to enhance …
techniques have been developed to overcome its drawbacks and to enhance …
Analysis of bacteriophages with insulator-based dielectrophoresis
A Coll De Peña, NH Mohd Redzuan, MK Abajorga… - Micromachines, 2019 - mdpi.com
Bacterial viruses or phages have great potential in the medical and agricultural fields as
alternatives to antibiotics to control nuisance populations of pathogenic bacteria. However …
alternatives to antibiotics to control nuisance populations of pathogenic bacteria. However …