Thin Film Synthesis and Characterization of New MAX Phase Alloys

The mechanism of the coupling between the mass and charge transfer in electrochemical systems, and particularly in conductive polymer based system, is highly

Most of these cases however, stem from large enterprises or IT-intensive small or medium-sized enterprises (SME). The current ontology development methodologies are not tailored

By applying a negative bias to the target (the material to be deposited), Ar + ions are accelerated towards the target, colliding with the target material from which atoms

For routing in IC-MANETs we have developed a beacon-less delay-tolerant geographic routing protocol named LAROD (location aware routing for delay-tolerant networks) and

SAA , intracheally injected with both 1) 4 million alveolar macrophages loaded with commercial BaSO4 contrast agent for CT or 2) 2 million alveolar macrophages loaded with GdNP as

In order to obtain local quantification with respect to composition for thin films, TEM equipped with EDX and/or EELS has been used, and measurements have been

In this Thesis, novel properties have been added to so called MAX phases through alloying known phases with hitherto unexplored M and X elements. The focus has been directed

thin films investigated in this Thesis. A schematic of the system as well as an image of the cathodic arc deposition chamber at Linköping University is presented in Figure 3.1. a)