Abstract: An electrochemical method and an electrochemical sensor for breath analysis of single or multiple analytes using a porous, preferably flexible and disposable supporting material is provided, a salt is incorporated, and which can be wetted in contact with the exhaled breath condensate. The electrochemical method acting simultaneously as sampling method, as an electrolyte and as a support for the electrode structures. In some embodiments the salt may be hygroscopic, such that the porous substrate stays wet. To ensure that the obtained signal originates from the analyte, the electrochemical sensor preferably exhibits a differential electrode design, including a sensing (analyte-sensitive) and a blank (analyte-insensitive) electrode in order to isolate and remove the background signals.

Abstract: A method of manufacturing an electrode structure includes providing an initial structure, the initial structure including at least two elevated regions extending from a substrate, wherein top portions of the two elevated regions are separated by a first lateral distance, depositing material onto the elevated regions by means of physical vapor deposition such that adjacent top portions of the deposited material are separated by a second lateral distance that is smaller than the first lateral distance, and applying electrodes onto the top portions of the material.

Abstract: A method of manufacturing a metal fabric or membrane, the method comprises providing an ink comprising a plurality of semiconductor particles disposed in a first solvent. The method comprises applying the ink to a fabric or membrane to obtain a fabric or membrane comprising a plurality of semiconductor particles. Finally, the method comprises contacting the fabric or membrane comprising the plurality of semiconductor particles with a deposition solution comprising a second solvent, an autocatalytic agent, and metal cations to thereby cause a reaction to occur such that the metal cations are reduced and at least partially displace the semiconductor particles, to thereby provide a metal fabric or membrane.

Abstract: A method of manufacturing an electrode structure includes providing an initial structure, the initial structure including at least two elevated regions extending from a substrate, wherein top portions of the two elevated regions are separated by a first lateral distance, depositing material onto the elevated regions by means of physical vapor deposition such that adjacent top portions of the deposited material are separated by a second lateral distance that is smaller than the first lateral distance, and applying electrodes onto the top portions of the material.