Abstract: The present disclosure relates to, inter alia, materials, and methods for detection of infection. More particularly materials, and methods for detecting an infection in a subject's urine or wound exudate are described, e.g. by electrochemically measuring a target molecule and/or a metabolic activity associated with infection using an electrochemical sensor array.

Abstract: The present invention relates to, inter alia, methods and kits for detection of microbes. More particularly methods and kits for detecting an infection in a subject's ear suitable for sample types including ear wax are provided. The method comprises measuring a presence, absence or amount of a compound in the ear wax by electrochemically measuring a redox active compound using an electrochemical sensor.

Abstract: Disclosed herein are star-shaped macromolecular structures comprising a hyper-branched silicon containing core grafted with a well-defined and controllable number of alkyl (methyl)acrylate (co)polymer arms. The presence of the robust inorganic core provides additional resilience against mechanical degradation and therefore enhanced additive life time. Control over the additive architecture was complemented by tunability of the length of the grafted polymers by making use of controlled radical based polymerization techniques. The performance of these novel inorganic-organic star-shaped hybrids were compared to traditional fully organic lubricant additives. Detailed analysis revealed the multi-functional character of the hybrids by simultaneously performing as bulk viscosity modifiers, boundary lubricant, and wear protectants while being dispersed in a commercially available base oil for automotive lubrication purposes.