Münster University of Applied Sciences

About: Münster University of Applied Sciences is a education organization based out in Münster, Germany. It is known for research contribution in the topics: Luminescence & Laser. The organization has 694 authors who have published 1067 publications receiving 12597 citations.

Strategien zur Entwicklung der Zusammenarbeit von Wissenschaft und Wirtschaft

Abstract: Der Beitrag tragt ausgewahlte Erkenntnisse der Forschung zu Science Marketing und Wissenschafts-Wirtschafts-Kooperationen zusammen und bereitet sie in Form kurzer zugespitzter „Insights“ fur praktische und politische Entscheidungstrager auf. Diese Insights konnen kunftige Strategien in der Zusammenarbeit von Wirtschaft und Wissenschaft erfolgreicher machen.

Body Shaming: an Exploratory Study on its Definition and Classification

Abstract: Body shaming (BS) is a popular term for a type of negative social interaction, which frequently occurs in social media. However, there is a lack of a clear scientific definition of BS and data on its relation to other concepts in social aggression research. The present study therefore aimed at providing a definition and classification of BS. In an exploratory online-study, 25 participants (60%) provided personal definitions of BS and rated the fit of a suggested definition. In addition, they reported similarities with and differences to related concepts (appearance teasing, cyberbullying, trolling). We conducted qualitative analyses of the verbal definitions guided by the Grounded Theory approach and quantified the fit to existing concepts in the field of social aggression. The results show that BS is perceived as an unrepeated act in which a person expresses unsolicited, mostly negative opinions/comments about a target’s body, without necessarily intending to harm him/her. Still, the target perceives the comments as negative. BS can range from well-meant advice to malevolent insults and it can occur online and offline. Participants saw similarities between BS and appearance teasing. BS can be a tool for trolling and can evolve to cyberbullying with repetition over time. Altogether, BS is a form of social aggression that has a negative impact on individuals. The definition and classification help to investigate BS and its effects on body image and mental health in future research.

Ag functionalized Carbon Molecular Sieves membranes for separating O 2 and N 2

Abstract: In the last two decades substantial progress has been made in the preparation of Carbon Molecular Sieve (CMS) membranes for gas separation. Today, researchers actively study precursor materials and pyrolysis routes to fully explore the merits of CMS membranes. Successful separation of permanent gas mixtures in which the gaseous components posses only little to no affinity to adsorb onto the internal CMS surface relies highly on the exact tailoring of microsieving regions. Preparation of CMS structures, which are highly permselective towards one of such mixture components, is especially cumbersome if the molecular sizes differ only slightly (e.g. O 2 /N 2 ). To facilitate the separation of O 2 and N 2 we have chosen to functionalize the carbon matrix. By introducing nano-sized (40 nm) metallic Ag-clusters, the affinity of the membrane matrix for O 2 significantly increases. We have added a silver containing salt, AgNO 3 , to a solution of BMTA-TDI/MDI co-polyimide (P84, Lenzing) in NMP in the absence of light to obtain homogeneous flat film polymeric precursors. These precursors were pyrolysed, reducing Ag + to Ag, at different temperatures (350, 500, 600, 700, and 800 °C) in a N 2 atmosphere and characterized using Scanning Electron Microscopy, Atomic Force Microscopy, and gas permeation. Thermo Gravimetrical Analysis was used to follow the pyrolysis in detail. From this we observed an increase of the ideal separation factor of 1.6. Moreover, we observed an increase of the permeability to a maximum of 240 %.

Anti-microbial polymer

Abstract: The invention relates to an anti-microbial polymer which preferably can be thermoplastically processed, to a method for producing the same and to the use thereof as an anti-microbial finish. The invention further relates to polymer blends containing anti-microbial polymers and to the use of special monomers for the preparation of anti-microbial polymers which preferably can be thermoplastically processed.

Photochemical synthesis of CeO2 nanoscale particles using sodium azide as a photoactive material: effects of the annealing temperature and polyvinylpyrrolidone addition

Abstract: A novel and simple method for CeO2 nanoscale particle synthesis in aqueous solutions via a photochemical route is reported in this paper. To this end, CeCl3·7H2O or Ce(NO3)3·6H2O was used as a Ce precursor, while NaN3 was chosen as the photoactive compound. Synthesis was carried out without any surfactants or by using polyvinylpyrrolidone (PVP). The synthesized samples were subsequently thermally treated at different temperatures between 100 and 900 °C. XRD patterns and Raman spectra indicated that CeO2 samples possess the fluorite structure. TEM analysis revealed that synthesis without surfactants leads to formation of highly agglomerated particles, while adding PVP to the primary solution resulted in decreased agglomeration and reduced particle size. The particle size was calculated from XRD and Raman line broadening and confirmed by TEM analysis. The average crystallite size for the unheated samples prepared without surfactant was hardly radiation exposure dependent and varied from 6.5 to 8.9 nm. Even smaller particles (3.3–7.0 nm) were formed by using PVP. It turned out that an increase of the calcination temperature causes significant crystallite growth. A strong interaction between CeO2 nanoparticles and PVP was revealed by TG analysis. The UV/VIS absorption spectra showed a strong absorption below 400 nm (3.10 eV) with a well-defined absorption peak at around 295–320 nm. The estimated band gap (Eg) of the obtained nanoscale particles was in the range of 2.90–3.57 eV, i.e. the values are higher than that of a bulk CeO2 powder (Eg = 3.19 eV), except for the sample calcined at 900 °C.