The zeta potential of the protein corona around carboxyl particles has been measured using tunable resistive pulse sensing (TRPS). A simple and rapid assay for characterising zeta potentials within buffer, serum and plasma is presented monitoring the change, magnitude and distribution of proteins on the particle surface. First, we measure the change in zeta potential of carboxyl-functionalised nanoparticles in solutions that contain biologically relevant concentrations of individual proteins, typically constituted in plasma and serum, and observe a significant difference in distributions and zeta values between room temperature and 37 °C assays. The effect is protein dependent, and the largest difference between the two temperatures is reco...
Aggregates of micron sized beads were formed by the binding of anti-thrombin aptamer to its compleme...
The detection and characterisation of micro- and nanoscale particles has become increasingly importa...
In biological fluids, proteins associate with nanoparticles, leading to a protein "corona" defining ...
The zeta potential of the protein corona around carboxyl particles has been measured using tunable r...
Nanopore technologies, known collectively as Resistive Pulse Sensors (RPS), are being used to detect...
Resistive pulse sensors, RPS, are allowing the transport mechanism of molecules, proteins and even n...
Resistive pulse sensors, RPS, are allowing the transport mechanism of molecules, proteins and even n...
Accurate characterisation of micro- and nanoparticles is of key importance in a variety of scientifi...
Tunable resistive pulse sensing (TRPS) is a particle-by-particle analysis technique combining the Co...
The contact of nanoparticles with biological fluids such as serum results in rapid adsorption of pro...
We present the first comparison between assays that use resistive pulses or rectification ratios on ...
Modern resistive pulse sensing techniques can be used to measure nanoparticle electrophoretic mobili...
TRPS is an experimental technique of growing popularity that has been used to measure a range of syn...
The formation of a protein corona, where proteins spontaneously adhere to the surface of nanomateria...
The surface charge of nanoparticles plays an important role in the way they interact with biological...
Aggregates of micron sized beads were formed by the binding of anti-thrombin aptamer to its compleme...
The detection and characterisation of micro- and nanoscale particles has become increasingly importa...
In biological fluids, proteins associate with nanoparticles, leading to a protein "corona" defining ...
The zeta potential of the protein corona around carboxyl particles has been measured using tunable r...
Nanopore technologies, known collectively as Resistive Pulse Sensors (RPS), are being used to detect...
Resistive pulse sensors, RPS, are allowing the transport mechanism of molecules, proteins and even n...
Resistive pulse sensors, RPS, are allowing the transport mechanism of molecules, proteins and even n...
Accurate characterisation of micro- and nanoparticles is of key importance in a variety of scientifi...
Tunable resistive pulse sensing (TRPS) is a particle-by-particle analysis technique combining the Co...
The contact of nanoparticles with biological fluids such as serum results in rapid adsorption of pro...
We present the first comparison between assays that use resistive pulses or rectification ratios on ...
Modern resistive pulse sensing techniques can be used to measure nanoparticle electrophoretic mobili...
TRPS is an experimental technique of growing popularity that has been used to measure a range of syn...
The formation of a protein corona, where proteins spontaneously adhere to the surface of nanomateria...
The surface charge of nanoparticles plays an important role in the way they interact with biological...
Aggregates of micron sized beads were formed by the binding of anti-thrombin aptamer to its compleme...
The detection and characterisation of micro- and nanoscale particles has become increasingly importa...
In biological fluids, proteins associate with nanoparticles, leading to a protein "corona" defining ...
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