This paper reports a highly sensitive electrochemical-enzymatic redox cycling based biosensor platform using patternable nanoporous carbon electrodes. 3D carbon electrodes with macro-/micro-sized pores were fabricated in a batch way using microwave O2 plasma etching and carbon-MEMS consisting of conventional UV-lithography and pyrolysis. Enzymes (glucose oxidase (GOx) in this study) were immobilized on the nanoporous carbon electrode via diazonium reduction. The enzyme-functionalized nanoporous carbon based sensors exhibited enhanced response for glucose with limits of detection of 216 ??M and sensitivity of 53.42 ??M mM-1 cm-2 compared to a bare-carbon-based sensor by 2.1 times and 26.0 % respectively
A carbon micro/nanostructured composite based on cup-stacked carbon nanotubes (CSCNTs) grown onto a ...
A novel graphitized ordered macroporous carbon (GMC, pore size similar to 380 nm) with hierarchical ...
Herein, we demonstrate high current densities per projected surface area for the electroenzymatic ox...
We proposed a novel non-enzymatic glucose sensor based on 3D carbon electrodes with nanoporous spong...
Ordered porous carbon films with tunable pore diameters, immobilized with glucose oxidase (GOD) have...
We report a novel electrochemical glucose sensor employing carbon interdigitated array (IDA) nanoele...
Ordered porous carbon films with tunable pore diameters, immobilized with glucose oxidase (GOD) have...
We developed a highly sensitive biosensor platform based on electrochemical-enzymatic redox cycling ...
An enzyme-based electrochemical biosensor has been developed with 3D pyrolytic carbon microelectrode...
The porous high surface area and conducting properties of mesoporous carbon nanoparticles, CNPs (<50...
An enzyme-based electrochemical biosensor has been developed with 3D pyrolytic carbon microelectrode...
Three dimensional ordered graphitized mesoporous carbon GMC-6 (pore diameter similar to 6 nm) and GM...
We developed an electrochemical redox cycling-based immunosensor using a 3D carbon system consisting...
This pioneering study involved the fabrication of a new class of nanohybrid-based electrochemical gl...
We report on the functionalization of a micropatterned carbon electrode fabricated using the carbon-...
A carbon micro/nanostructured composite based on cup-stacked carbon nanotubes (CSCNTs) grown onto a ...
A novel graphitized ordered macroporous carbon (GMC, pore size similar to 380 nm) with hierarchical ...
Herein, we demonstrate high current densities per projected surface area for the electroenzymatic ox...
We proposed a novel non-enzymatic glucose sensor based on 3D carbon electrodes with nanoporous spong...
Ordered porous carbon films with tunable pore diameters, immobilized with glucose oxidase (GOD) have...
We report a novel electrochemical glucose sensor employing carbon interdigitated array (IDA) nanoele...
Ordered porous carbon films with tunable pore diameters, immobilized with glucose oxidase (GOD) have...
We developed a highly sensitive biosensor platform based on electrochemical-enzymatic redox cycling ...
An enzyme-based electrochemical biosensor has been developed with 3D pyrolytic carbon microelectrode...
The porous high surface area and conducting properties of mesoporous carbon nanoparticles, CNPs (<50...
An enzyme-based electrochemical biosensor has been developed with 3D pyrolytic carbon microelectrode...
Three dimensional ordered graphitized mesoporous carbon GMC-6 (pore diameter similar to 6 nm) and GM...
We developed an electrochemical redox cycling-based immunosensor using a 3D carbon system consisting...
This pioneering study involved the fabrication of a new class of nanohybrid-based electrochemical gl...
We report on the functionalization of a micropatterned carbon electrode fabricated using the carbon-...
A carbon micro/nanostructured composite based on cup-stacked carbon nanotubes (CSCNTs) grown onto a ...
A novel graphitized ordered macroporous carbon (GMC, pore size similar to 380 nm) with hierarchical ...
Herein, we demonstrate high current densities per projected surface area for the electroenzymatic ox...