Abstract: An electrode for electrochemical analysis is described, the electrode comprising: an insulating surface; a three-dimensional network of carbon nanotubes situated on the insulating surface; and an electrically conducting material in electrical contact with the carbon nanotubes; wherein the carbon nanotubes are oriented substantially parallel to the insulating surface. Also described is a method of manufacturing the electrode, and a method of electrochemically analysing a solution using electrodes of this type, and an associated assay device or kit.

Abstract: Sensor device for ion channel recordings; liquid-liquid measurements and resistive pulse particle counting comprising; at least one sensor element; the element comprising a diamond thin film substrate and a pore which is a nanopore or a micropore included in the substrate. This device may be used in analysis, for instance the device may be used for single molecule detection of an apialyte (e.g. DNA), for the analysis of interactions between a sensor element and an analyte, for the detection of pore forming entities, or for the determination of ion transfer.

Abstract: An electrode for electrochemical analysis is described, the electrode comprising: an insulating surface; a three-dimensional network of carbon nanotubes situated on the insulating surface; and an electrically conducting material in electrical contact with the carbon nanotubes; wherein the carbon nanotubes are oriented substantially parallel to the insulating surface. Also described is a method of manufacturing the electrode, and a method of electrochemically analysing a solution using electrodes of this type, and an associated assay device or kit.

Abstract: The invention relates to a method for preparing metal nanoparticle-modified boron-doped diamond the method comprising generating a strong oxidising agent by acid treating a front surface of the boron-doped diamond prior to deposition of the metal nanoparticles onto the front surface of the boron-doped diamond. The metal nanoparticle-modified boron-doped diamond resulting from the acid wash has a front surface which is oxygen terminated. The metal nanoparticle-modified boron-doped diamond may be used in electrodes as an oxygen sensor, the electrode may be made by preparing a boron-doped diamond column; insulating the column so that only a front surface of the column is exposed; polishing the front surface of the column; acid-treating the front surface of the column; and depositing metal nanoparticles onto the front surface of the column.

Abstract: Sensor device for ion channel recordings; liquid-liquid measurements and resistive pulse particle counting comprising; at least one sensor element; the element comprising a diamond thin film substrate and a pore which is a nanopore or a micropore included in the substrate. This device may be used in analysis, for instance the device may be used for single molecule detection of an apialyte (e.g. DNA), for the analysis of interactions between a sensor element and an analyte, for the detection of pore forming entities, or for the determination of ion transfer.