Abstract: The invention relates to an electrolysis cell for generating ozone or oxygen from superpure water with a solid electrolyte membrane located in a multipartite housing with electrodes designed to be directly connected to the membrane as porous structures, with the membrane separating the cathode space from the anode space and the pressure of both electrodes acting on the membrane being generated by means of a pressure device acting on at least one of the electrodes, with a pressure screw equipped with a convex head being provided as a pressure device, said screw being so arranged that the convex head rests centrally directly on the cathode or anode, and an indentation is pressed into the cathode surface or anode surface by the action of the pressure applied.

Abstract: A method is proposed for growing diamond from graphite, including placing a sample of graphite in a high pressure chamber, applying a pulse-periodical laser radiation having a wavelength in the region of transmission of diamond to the sample of graphite, wherewith absorption of the pulse of laser radiation takes place in the skin-layer of graphite and the graphite is heated in the region of the skin-layer to the temperature of graphite-to-diamond phase transition. After cooling the produced layer of diamond, the steps of heating successive layers of the sample of graphite with pulses of laser radiation and cooling said layers are repeated until complete transformation of the graphite to diamond.

Abstract: Apparatus and method are provided for determining the concentration of an analyte in a fluid test sample by applying the fluid test sample to the surface of a working electrode which is electrochemically connected to a reference electrode which surface bears a composition comprising an enzyme specific for the analyte. A mediator is reduced in response to a reaction between the analyte and the enzyme. An oxidizing potential is applied between the electrodes to return at least a portion of the mediator back to its oxidized form before determining the concentration of the analyte to thereby increase the accuracy of the analyte determination. Following this initially applied potential, the circuit is switched to an open circuit or to a potential that substantially reduces the current to minimize the rate of electrochemical potential at the working electrode. A second potential is applied between the electrodes and the current generated in the fluid test sample is measured to determine analyte concentration.

Abstract: A redox electrode for the rapid detection of glucose in aqueous media and a method for its use are provided. The redox electrode comprises an electrically conductive member such as copper, and a redox membrane in direct contact with said electrically conductive member. The redox membrane comprises a polymer matrix such as PVC containing a plasticizer, and a complex of 7,7,8,8-tetracyanoquinodimethane and tetrathiafulvalene with the complex having a burgundy-red coloration and characterized by a broad absorption from about 340 nm to about 550 nm and weaker absorption between about 650 nm to about 800 nm having about six small peaks with an absorption maximum at about 750 nm. Glucose is rapidly assayed by bringing the redox electrode and a reference electrode into simultaneous contact with an aqueous medium containing KCl, phosphate buffer, glucose oxidase, peroxidase, and 3,3',5,5'-tetramethylbenzidine dihydrochloride. The potential of the redox membrane is then monitored until it is stable.

Abstract: In a device for electrolytically coating one side of metal strips (2), the metal strips to be coated are guided around a rotary cathodic current roller (1), which they contact, and a partially cylindrical, insoluble anode (3) is arranged approximately concentrically around the current roller, at a distance thereof. The interval (4) between the section (21) of the strip guided on the current roller (1) and the anode (3) is delimited in the area of the strip edges (22) by seals (5) which can be oriented in a direction parallel to the axis of the roller. The electrolyte flows through the interval (4).