Add to ORKGThe behavior of cholinesterase based potentiometric and amperometric biosensors with renewable membranes toward irreversible inhibitor determination has been investigated. Tracing paper, gelatin and cellulose nitrate were examined, as membrane materials. The membranes are replaced in the biosensor assembly after 15-20 inhibition measurements. The detection limits as well as other analytical characteristics of inhibitor determination for different enzyme supports and detection systems are compared and discussed
Electrochemical biosensors are developed on the basis of pH and carbon-paste electrodes with replace...
Electrochemical biosensors are developed on the basis of pH and carbon-paste electrodes with replace...
Electrochemical biosensors are developed on the basis of pH and carbon-paste electrodes with replace...
The behavior of cholinesterase based potentiometric and amperometric biosensors with renewable membr...
The behavior of cholinesterase based potentiometric and amperometric biosensors with renewable membr...
An amperometric flow-through biosensor based on epoxy-carbon electrode and butyrylcholinesterase imm...
An amperometric flow-through biosensor based on epoxy-carbon electrode and butyrylcholinesterase imm...
The performance of electrochemical biosensors developed for the determination of inhibiting species ...
The performance of electrochemical biosensors developed for the determination of inhibiting species ...
The performance of electrochemical biosensors developed for the determination of inhibiting species ...
The influence of non-ionogenic surfactants, i.e., Tween-20, Triton X-100 and PEG-10,000, on the resp...
The performance of electrochemical biosensors developed for the determination of inhibiting species ...
The influence of non-ionogenic surfactants, i.e., Tween-20, Triton X-100 and PEG-10,000, on the resp...
The influence of non-ionogenic surfactants, i.e., Tween-20, Triton X-100 and PEG-10,000, on the resp...
The influence of non-ionogenic surfactants, i.e., Tween-20, Triton X-100 and PEG-10,000, on the resp...
Electrochemical biosensors are developed on the basis of pH and carbon-paste electrodes with replace...
Electrochemical biosensors are developed on the basis of pH and carbon-paste electrodes with replace...
Electrochemical biosensors are developed on the basis of pH and carbon-paste electrodes with replace...
The behavior of cholinesterase based potentiometric and amperometric biosensors with renewable membr...
The behavior of cholinesterase based potentiometric and amperometric biosensors with renewable membr...
An amperometric flow-through biosensor based on epoxy-carbon electrode and butyrylcholinesterase imm...
An amperometric flow-through biosensor based on epoxy-carbon electrode and butyrylcholinesterase imm...
The performance of electrochemical biosensors developed for the determination of inhibiting species ...
The performance of electrochemical biosensors developed for the determination of inhibiting species ...
The performance of electrochemical biosensors developed for the determination of inhibiting species ...
The influence of non-ionogenic surfactants, i.e., Tween-20, Triton X-100 and PEG-10,000, on the resp...
The performance of electrochemical biosensors developed for the determination of inhibiting species ...
The influence of non-ionogenic surfactants, i.e., Tween-20, Triton X-100 and PEG-10,000, on the resp...
The influence of non-ionogenic surfactants, i.e., Tween-20, Triton X-100 and PEG-10,000, on the resp...
The influence of non-ionogenic surfactants, i.e., Tween-20, Triton X-100 and PEG-10,000, on the resp...
Electrochemical biosensors are developed on the basis of pH and carbon-paste electrodes with replace...
Electrochemical biosensors are developed on the basis of pH and carbon-paste electrodes with replace...
Electrochemical biosensors are developed on the basis of pH and carbon-paste electrodes with replace...