Add to ORKGSignals recorded at the cell membrane are meaningful indicators of the physiological vs. pathological state of a cell and will become useful diagnostic elements in nanomedicine. In this project we present a coherent strategy for the design and fabrication of a bio-nano-sensor that monitors changes in intracellular cell calcium concentration and allows an easy read out by converting the calcium signal into an electrical current in the range of microampere that can be easily measured by conventional cell electrophysiology apparatus
Electrochemical biosensors convert biological events to an electrical current. To date most electroc...
Genetically encoded fluorescent biosensors are powerful tools for studying complex signaling in the ...
AbstractIonic membrane currents play an important role during regeneration of nerve cells, embryonic...
Signals recorded at the cell membrane are meaningful indicators of the physiological vs. pathologica...
Signals recorded at the cell membrane are meaningful indicators of the physiological vs. pathologica...
Optical nanoparticle (NP)-based sensors have been widely implemented as tools for detection of targe...
Variations in calcium ion (Ca^(2+)) concentrations play a crucial role in cell–cell communication; p...
Small-molecule chemical calcium (Ca2+) indicators are invaluable tools for studying intracellular si...
Intracellular free calcium concentration [Ca 2+ ] IN has been extensively studied as a major feedbac...
An Ultrathin (~10 nm) InN ion sensitive field effect transistor (ISFET) with gate regions functional...
The electrical activity of cells is regulated by ion fluxes and chemical signaling between them is s...
Nanocavity sensor arrays are powerful devices for parallel extracellular recordings of action potent...
Bioelectronic sensors represent a major field of interest in current research. Their ability to dete...
Nanopore sensors are a new class of single-molecule biosensors that allow for the detection of DNA, ...
Electrochemical biosensors convert biological events to an electrical current. To date most electroc...
Electrochemical biosensors convert biological events to an electrical current. To date most electroc...
Genetically encoded fluorescent biosensors are powerful tools for studying complex signaling in the ...
AbstractIonic membrane currents play an important role during regeneration of nerve cells, embryonic...
Signals recorded at the cell membrane are meaningful indicators of the physiological vs. pathologica...
Signals recorded at the cell membrane are meaningful indicators of the physiological vs. pathologica...
Optical nanoparticle (NP)-based sensors have been widely implemented as tools for detection of targe...
Variations in calcium ion (Ca^(2+)) concentrations play a crucial role in cell–cell communication; p...
Small-molecule chemical calcium (Ca2+) indicators are invaluable tools for studying intracellular si...
Intracellular free calcium concentration [Ca 2+ ] IN has been extensively studied as a major feedbac...
An Ultrathin (~10 nm) InN ion sensitive field effect transistor (ISFET) with gate regions functional...
The electrical activity of cells is regulated by ion fluxes and chemical signaling between them is s...
Nanocavity sensor arrays are powerful devices for parallel extracellular recordings of action potent...
Bioelectronic sensors represent a major field of interest in current research. Their ability to dete...
Nanopore sensors are a new class of single-molecule biosensors that allow for the detection of DNA, ...
Electrochemical biosensors convert biological events to an electrical current. To date most electroc...
Electrochemical biosensors convert biological events to an electrical current. To date most electroc...
Genetically encoded fluorescent biosensors are powerful tools for studying complex signaling in the ...
AbstractIonic membrane currents play an important role during regeneration of nerve cells, embryonic...