JLUdata
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JLUdata ist der Bereich für Datensätze aus der Forschung der JLU Gießen.
JLUdata ermöglicht die Publikation von Daten (Dateien und beschreibende Metadaten) inkl. Vergabe von DOIs und die langfristige Aufbewahrung der Daten. Die Metadaten Ihres Datensatzes werden von der Universitätsbibliothek geprüft und ggf. korrigiert und ergänzt. Anschließend wird Ihr Datensatz freigeschaltet. Bitte räumen Sie uns für die Freischaltung bis zu drei Werktage Zeit ein.
Sie können uns per E-Mail erreichen: forschungsdaten@uni-giessen.de
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Item Histology sections and scanning electron micrographs of floral buds of Pteridophyllum racemosum(2024-02-29) Kong, DoudouThe size of a single photo is about 14MB. The size of a single SEM photo is about 1.25MB. Both SEM graphs and histology sections graphs are formatted as ".TIFF" and can be opened using any image viewer.Item Notenbeispiele zum Artikel: Claudia Bullerjahn "Einfach nur »traumhaft schöne Musik«?" in der Zeitschrift "Musiktheorie" Heft 3/2022(2022-09-15) Bullerjahn, ClaudiaNotenbeispiele zu einem Artikel, der die kompositorische Arbeit und die kreativen Intentionen von Rachel Portman am Beispiel der Filmmusik zu Chocolat (UK/USA 2000) erläutert und dies vor dem Hintergrund von gängigen tradierten Vorurteilen bezogen auf weibliches Komponieren.Item RNA uptake in fungi(2021-02-09) Kogel, Karl-HeinzPower point file showing the uptake of double-stranded RNA by various fungi from liquid cultures.Item Supplemental Figure for "Genotype by heat stress interactions for production and functional traits in dairy cows from an across-generation perspective"(2021) Kipp, CordulaThe dataset includes supplementary figure S1 for the manuscript accepted for publication in the Journal of Dairy Science.Item X-ray diffraction data for "Breaking the Symmetry of a Meso Compound by Isotopic Substitution: Synthesis and Stereochemical Assignment of Monodeuterated cis-Perhydroazulene"(2020-12-11) Saito, Fumito; Becker, Jonathan; Schreiner, Peter R.Raw X-ray diffraction images for the publication F. Saito, D. Gerbig, J. Becker, P. R. Schreiner, Org. Lett. 2021, 23, 1, 113–117 ( https://pubs.acs.org/doi/full/10.1021/acs.orglett.0c03795 ) File format is the Bruker sfrm frame format. The data can be processed with the SAINT program by BRUKER AXS or using alternative and/or open source tools as XDS ( http://xds.mpimf-heidelberg.mpg.de/ ) together with sfrmtools ( https://homepage.univie.ac.at/tim.gruene/research/programs/conv/sfrmtools/ ) or FabIO ( Knudsen, E. B., Sorensen, H. O., Wright, J. P., Goret, G. & Kieffer, J. (2013). J. Appl. Cryst. 46, 537-539. ). FabIO provides the following information about the file format: "The bruker format uses 80 char lines in key : value format. In the first 512*5 bytes of the header there should be a HDRBLKS key, whose value denotes how many 512 byte blocks are in the total header. The header is always n*5*512 bytes, otherwise it wont contain whole key: value pairs. Data is stored in three blocks: 1. data (uint8) 2. overflow (uint32) 3. underflow (int32). The blocks are zero padded to a multiple of 16 bits.Item X-ray diffraction data for "Formation of Nucleophilic Allylboranes from Molecular Hydrogen and Allenes Catalyzed by a Pyridonate Borane that Displays Frustrated Lewis Pair Reactivity"(2020-09-14) Becker, Jonathan; Hasenbeck, Max; Gellrich, UrsRaw X-ray diffraction images for the publication M. Hasenbeck, S. Ahles, A. Averdunk, J. Becker, U. Gellrich, Angew. Chem. Int. Ed. 2020, 59, 23885 "Formation of Nucleophilic Allylboranes from Molecular Hydrogen and Allenes Catalyzed by a Pyridonate Borane that Displays Frustrated Lewis Pair Reactivity" https://doi.org/10.1002/anie.202011790. File format is the Bruker sfrm frame format. The data can be processed with the SAINT program by BRUKER AXS or using alternative and/or open source tools as XDS ( http://xds.mpimf-heidelberg.mpg.de/ ) together with sfrmtools ( https://homepage.univie.ac.at/tim.gruene/research/programs/conv/sfrmtools/ ) or FabIO ( Knudsen, E. B., Sorensen, H. O., Wright, J. P., Goret, G. & Kieffer, J. (2013). J. Appl. Cryst. 46, 537-539. ). FabIO provides the following information about the file format: "The bruker format uses 80 char lines in key : value format. In the first 512*5 bytes of the header there should be a HDRBLKS key, whose value denotes how many 512 byte blocks are in the total header. The header is always n*5*512 bytes, otherwise it wont contain whole key: value pairs. Data is stored in three blocks: 1. data (uint8) 2. overflow (uint32) 3. underflow (int32). The blocks are zero padded to a multiple of 16 bits.Item X-ray diffraction data for "Kinetic Investigation of the Reaction of Dioxygen with the Copper(I) Complex [Cu(PimiPr2)(CH3CN)]CF3SO3 {PimiPr2 = Tris[2- (1,4-diisopropylimidazolyl)]phosphine}"(2020) Becker, Jonathan; Lerch, Markus; Stumpf, Tim-Daniel J.; Miska, Andreas; Göttlich, Richard; Schindler, Siegfried; RWTH Aachen UniversityRaw X-ray diffraction images for the publication Lerch, M., Weitzer, M., Stumpf, T.‐D.J., Laurini, L., Hoffmann, A., Becker, J., Miska, A., Göttlich, R., Herres‐Pawlis, S. and Schindler, S. (2020), Kinetic Investigation of the Reaction of Dioxygen with the Copper(I) Complex [Cu(PimiPr2)(CH3CN)]CF3SO3 {PimiPr2 = Tris[2‐(1,4‐diisopropylimidazolyl)]phosphine}. Eur. J. Inorg. Chem., 2020: 3143-3150. https://doi.org/10.1002/ejic.202000462. File format is the Bruker sfrm frame format. The data can be processed with the SAINT program by BRUKER AXS or using alternative and/or open source tools as XDS ( http://xds.mpimf-heidelberg.mpg.de/ ) together with sfrmtools ( https://homepage.univie.ac.at/tim.gruene/research/programs/conv/sfrmtools/ ) or FabIO ( Knudsen, E. B., Sorensen, H. O., Wright, J. P., Goret, G. & Kieffer, J. (2013). J. Appl. Cryst. 46, 537-539. ). FabIO provides the following information about the file format: "The bruker format uses 80 char lines in key : value format. In the first 512*5 bytes of the header there should be a HDRBLKS key, whose value denotes how many 512 byte blocks are in the total header. The header is always n*5*512 bytes, otherwise it wont contain whole key: value pairs. Data is stored in three blocks: 1. data (uint8) 2. overflow (uint32) 3. underflow (int32). The blocks are zero padded to a multiple of 16 bits.