xi, 54 pages29 cm. 1 CDABSTRACTBiologically relevant molecules such as glucose, hydrogen peroxide, and dopamine are important for human body and directly affect some bodily functions. Sensitive measurement of these molecules enables humans to prevent some serious problems arising from abnormal levels of these molecules. In this thesis, glucose and dopamine were measured using screen-printed electrodes (SPE) modified with various types ofcarbon-based nanomaterials. The SPEs used here are commercially availableelectrodes in which all the necessary components (working, counter and reference electrodes) for the measurement of these molecules are integrated. Nanomaterials can greatly affect the sensitivity of the electrodes by providing a larger...
Efficient direct electron transfer (DET) between a cellobiose dehydrogenase mutant from Corynascus t...
We report a dopamine electrochemical sensor based on the modification of glassy carbon electrodes (G...
Thesis (M.A.)--Özyeğin University, Graduate School of Sciences and Engineering, Department of Electr...
Dopamin merkezi sinir sistemi için önemli bir nörotransmitterdir. Dopaminin çok düşük miktrarları bi...
This work deals with the study of polymers electrogenerated from different catechols at glassy carbo...
Electrochemical detection methods are highly attractive for the monitoring of glucose, cholesterol, ...
In this study, new surfaces for pencil graphite electrodes with high stability, high surface area an...
An overview (with 376 refs.) is given here on the current state of methods for electrochemical sensi...
The anxiety and pain associated with frequent finger pricking has always been troublesome for diabet...
An enzymeless biosensor was developed, with the knowledge of electrochemistry and nanotechnology,...
In this study, electrochemical microfluidic paper-based analytical nanosensor (EμPAN) was used as a ...
The aim of this work was the investigation of electrochemical properties of new screen-printed senso...
The detection mechanism of enzyme-free glucose electrochemical sensors, the research progress of enz...
WOS: 000373146100024A non-enzymatic electrochemical method was developed for sensing glucose by usin...
Efficient direct electron transfer (DET) between a cellobiose dehydrogenase mutant from Corynascus t...
Efficient direct electron transfer (DET) between a cellobiose dehydrogenase mutant from Corynascus t...
We report a dopamine electrochemical sensor based on the modification of glassy carbon electrodes (G...
Thesis (M.A.)--Özyeğin University, Graduate School of Sciences and Engineering, Department of Electr...
Dopamin merkezi sinir sistemi için önemli bir nörotransmitterdir. Dopaminin çok düşük miktrarları bi...
This work deals with the study of polymers electrogenerated from different catechols at glassy carbo...
Electrochemical detection methods are highly attractive for the monitoring of glucose, cholesterol, ...
In this study, new surfaces for pencil graphite electrodes with high stability, high surface area an...
An overview (with 376 refs.) is given here on the current state of methods for electrochemical sensi...
The anxiety and pain associated with frequent finger pricking has always been troublesome for diabet...
An enzymeless biosensor was developed, with the knowledge of electrochemistry and nanotechnology,...
In this study, electrochemical microfluidic paper-based analytical nanosensor (EμPAN) was used as a ...
The aim of this work was the investigation of electrochemical properties of new screen-printed senso...
The detection mechanism of enzyme-free glucose electrochemical sensors, the research progress of enz...
WOS: 000373146100024A non-enzymatic electrochemical method was developed for sensing glucose by usin...
Efficient direct electron transfer (DET) between a cellobiose dehydrogenase mutant from Corynascus t...
Efficient direct electron transfer (DET) between a cellobiose dehydrogenase mutant from Corynascus t...
We report a dopamine electrochemical sensor based on the modification of glassy carbon electrodes (G...
Thesis (M.A.)--Özyeğin University, Graduate School of Sciences and Engineering, Department of Electr...