Mossbauer temperature study of the Fe80Nb6B14 amorphous alloy

Temperature studies in the range 300−800 K of amorphous Fe80Nb6B14 alloy using Mössbauer spectroscopy are presented. It is shown that at a temperature close to 700 K iron clusters with non-collinear magnetic structure are formed. The observed magnetic permeability enhancement effect in the annealed at elevated temperatures alloy, which takes place in amorphous phase, is due to the strong ferromagnetic exchange between Fe clusters via the amorphous matrix and reduction of internal stresses

Implementing the Duty Trip Support Application

We are in the process of developing an agent and ontology-based Duty Trip Support application. The goal of this paper is to consider issues arising when implementing such a system. In addition to the description of our current implementation, which is also critically analyzed, other possible approaches are considered as well.software agents, agent systems, ontologies, transport objects, agent-non-agent integration.

Construction of bionanoparticles with the use of a recombinant DNA vector-enzymatic system, containing artificial poliepitopic proteins, for the delivery of new generation vaccines

DNA/RNA amplification technologies, such as the Polymerase Chain Reaction have revolutionized modern biology, medical diagnostics and forensic analyses, among others. A number of alternative nucleic acids amplification methods have been developed, tailored to specific applications. Here we present a refined version of a DNA fragment amplification technology, which enables the construction of ordered concatemers in a head-to-tail-orientation. A very high number of DNA segments, at least 500 copies, can be consecutively linked. Other key features include: (i) the application of a dedicated vector-enzymatic system, including selected subtype IIS restriction endonucleases, which has been designed to automatically generate long Open Reading Frames and (ii) an amplification-expression vector with a built-in strong transcription promoter along with optimal translation initiation signals, which allow for a high level of expression of the constructed artificial poliepitopic protein. This highly advanced technology makes it possible to obtain ordered polymers of monomeric, synthetic or natural, DNA far beyond the capabilities of current chemical synthesis methods. The constructed poliepitopic proteins are further used for construction of several types of nanoparticles, including inclusion bodies and bacteriophages, containing multiple genetic fusion with poliepitopic proteins.The technology offers significant advances in a number of scientific, industrial and medical applications, including new vaccines and tissue pro-regenerative methods. The technology is protected by an international patent application and is available for licensing. Acknowledgments: project was supported by National Center for Research and Development, Warsaw, Poland, grant no STRATEGMED1/235077/9/NCBR/2014 and POIG.01.04.00-22-140/12; Jagiellonian Center for Innovation, Krakow, Poland; SATUS VC, Warsaw, Poland and BioVentures Institute Ltd, Poznan, Poland

Unsharpness of Thermograms in Thermography Diagnostics of Electronic Elements

Work temperature is a factor, which has a strong influence on the work of a semiconductor electronic element. Operation of an electronic element in an excessive temperature causes the element not to work correctly. For this reason, monitoring the temperature of the element is necessary. One of the methods, which allows the monitoring of electronic element temperature is thermography. This non-contact method can also be used during the operation of the electronic element. The reading of a thermal camera depends on several factors. One of these factors is the sharpness of the registered thermograms. For this reason, research was carried out to develop a simple tool that allows a clear classification of thermograms of electronic elements into sharp and unsharp thermograms. In the research carried-out, the sharpness of the registered thermograms of electronic elements was determined by different sharpness measures. In the research, it was shown that in the case of thermograms classified as sharp, a smaller error of temperature measurement was obtained with the use of a thermal imaging camera