1
Shridhara Alva Karinka, Isabella Moser, Gerhard Jobst, Uwe Tietjen, Panagiota S Petrou, Uwe Herberth, Gerald Urban: Sensor having electrode for determining the rate of flow of a fluid. Abbott Laboratories, David L Weinstein, October 5, 2004: US06801041 (368 worldwide citation)

Sensors that are capable measuring the rate of flow of a fluid that passes over the electrodes of the sensor. In these sensors, an electrode, designated the flow rate-determining electrode, is used in conjunction with the conventional electrodes, e.g., the working electrode, the reference electrode, ...


2
Isabella Moser, Gerald A Urban, Anastasia Zacharopoulou, Panagiota S Petrou: Method for the fabrication of a biosensor comprising an enzyme electrode arrangement. Isabella Moser, Renner Otto Boisselle & Sklar, November 25, 2008: US07455874

The present invention relates to an enzyme electrode arrangement comprising a substrate with a surface roughness in the range of 20 nm to 10 microns, a metal electrode, an ultrathin semipermeable membrane with a thickness in the range of 10-100 nm and at least one enzyme membrane, a method for the f ...


3
Shridhara Alva Karinka, Isabella Moser, Gerhard Jobst, Uwe Tietjen, Panagiota S Petrou, Uwe Herberth, Gerald Urban: Sensor having electrode for determining the rate of flow of a fluid. Steven F Weinstock, Abbott Laboratories, November 20, 2003: US20030214304-A1

Sensors that are capable measuring the rate of flow of a fluid that passes over the electrodes of the sensor. In these sensors, an electrode, designated the flow rate-determining electrode, is used in conjunction with the conventional electrodes, e.g., the working electrode, the reference electrode, ...


4
Isabella Moser, Gerald A Urban, Anastasia Zacharopoulou, Panagiota S Petrou: Enzyme electrode arrangement, a method for the fabrication of such arrangement and a biosensor arrangement comprising such electrode arrangement. Gero G Mcclellan, Moser Patterson & Sheridan, September 22, 2005: US20050205422-A1

The present invention relates to an enzyme electrode arrangement comprising a substrate with a surface roughness in the range of 20 nm to 10 microns, a metal electrode, an ultrathin semipermeable membrane with a thickness in the range of 10-100 nm and at least one enzyme membrane, a method for the f ...