Die chronologische Liste zeigt aktuelle Veröffentlichungen aus dem Forschungsbetrieb der Hochschule Weihenstephan-Triesdorf. Zuständig ist das Zentrum für Forschung und Wissenstransfer (ZFW).
Regenerative Mobilität (2017) Symposium 2017 Erneuerbare Energien und Nachhaltigkeit .
Priv.-Doz. Dr. Dipl.-Ing. Bettina Fähnrich,
Remigius Chizzola,
Andrea Schabauer,
Nadja Pracser,
Klaus Dürrschmid
Berechtigungen: Peer Reviewed
Volatiles in dairy products after supplementation with essential oil based feed additives and influence on taste of cheese (2017) European Food Research and Technology 243 (19), S. 1783-1797.
DOI: 10.1007/s00217-017-2883-5
Christoph Zutz,
Yi Ming Chiang,
Priv.-Doz. Dr. Dipl.-Ing. Bettina Fähnrich,
Markus Bacher,
Roland Hellinger,
Bernhard Kluger,
Martin Wagner,
Joseph Strauss,
Kathrin Rychli
Berechtigungen: Open Access
Berechtigungen: Peer Reviewed
Butyrate influences cellular levels of adenine derivates in the fungus Penicillium restrictum (2017) Microbiological Research 197 , S. 1-8.
DOI: 10.1016/j.micres.2016.12.013
Prof. Dr. Ralph Schaidhauf,
Prof. Dr. Norbert Huber
„Quo Vadis Brennwerttechnik“? Chancen und Risiken bei biogenen Festbrennstoff-Feuerungen (2017) Forschungskolloquium Bionergie, 21.-22. Februar 2017 in Straubing .
Jonas Häusler,
Lukas Neudert,
Mathias Mallmann,
Robin Niklaus,
Anna-Carina L. Kimmel,
Dr. Nicolas Alt,
Eberhard Schlücker,
Oliver Oeckler,
Wolfgang Schnick
The first gallium-containing nitridosilicate CaGa-SiN3 was synthesized in newly developed high-pressure autoclaves using supercritical ammonia as solvent and nitriding agent. The reaction was conducted in an ammonobasic environment starting from intermetallic CaGaSi with NaN3 as a mineralizer. At 770 K, intermediate compounds were obtained, which were subsequently converted to the crystalline nitride at temperatures up to 1070K (70–150 MPa) .The impact of other mineralizers (e.g., LiN3, KN3, and CsN3) on the product formation was investigated as well. The crystal structure of CaGaSiN3 was analyzed by powder X-ray diffraction and refined by the Rietveld method. The structural results were further corroborated by transmission electron microscopy, 29SiMAS-NMR, and first-principle DFT calculations. CaGaSiN3 crystallizes in the orthorhombic space group Cmc21 (no. 36) with lattice parameters a=9.8855(11), b=5.6595(1), c=5.0810(1) A, (Z=4, Rwp=0.0326), and is iso-structural with CaAlSiN3 (CASN). Eu2+doped samples exhibit red luminescence with an emission maximum of 620 nm and FWHM of 90 nm. Thus, CaGaSiN3:Eu2+ also represents an interesting candidate as a red-emitting material in phosphor-converted light-emitting diodes (pc-LEDs). In addition to the already known substitution of alkaline-earth metals in(Ca,Sr)AlSiN3:Eu2+,inclusion of Ga is a further and promising perspective for luminescence tuning of widely used red-emitting CASN type materials.
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Prof. Dr. Ralph Schaidhauf
Raum für Vielfalt (2017) Triesdorfer Chroniken 1-2017 .
Betreuung der Publikationsseiten
Gerhard Radlmayr
Referent für Wissenstransfer und Forschungskommunikation
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