Name Card

Full name Familienname, Vorname
Schörpf, Sebastian
 
Main Affiliation Organisations­zuordnung
 

Own Publications Eigene Publikationen

Results 1-16 of 16 (Search time: 0.001 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Zanghellini, Benjamin ; Knaack, Patrick ; Schörpf, Sebastian ; Semlitsch, Karl-Heinz ; Lichtenegger, Helga C. ; Praher, Bernhard ; Omastova, Maria ; Rennhofer, Harald Solvent-Free Ultrasonic Dispersion of Nanofillers in Epoxy MatrixArtikel Article 2021
2Konegger, Thomas ; Obmann, Richard ; Mikl, Gregor ; Schörpf, Sebastian ; Liska, Robert Freeze casting of porous polysilazane-derived ceramicsPräsentation Presentation2020
3Schörpf, Sebastian Novel monomers with stress relaxing and shrinkage reducing characteristics for dental restorationsThesis Hochschulschrift2020
4Mikl, Gregor ; Obmann, Richard ; Schörpf, Sebastian ; Liska, Robert ; Konegger, Thomas Pore Morphology Tailoring in Polymer-derived Ceramics generated through Photopolymerization-assisted Solidification TemplatingPräsentation Presentation2019
5Schörpf, Sebastian ; Catel, Yohann ; Moszner, Norbert ; Gorsche, Christian ; Liska, Robert Reduction of Polymerization-Induced Shrinkage Stress via Combination of Radical Ring Opening and Addition Fragmentation Chain TransferPräsentation Presentation2019
6Schörpf, Sebastian ; Taschner, Roland ; Gauss, Paul ; Knaack, Patrick ; Liska, Robert Replacing Aromatic Type II Photoinitiators with α-Ketoesters for Radical PolymerizationPräsentation Presentation2019
7Obmann, Richard ; Schörpf, Sebastian ; Gorsche, Christian ; Liska, Robert ; Fey, Tobias ; Konegger, Thomas Porous polysilazane-derived ceramic structures generated through photopolymerization-assisted solidification templatingArtikel Article 2019
8Schoerpf, Sebastian ; Catel, Yohann ; Moszner, Norbert ; Gorsche, Christian ; Liska, Robert Enhanced reduction of polymerization-induced shrinkage stress via combination of radical ring opening and addition fragmentation chain transferArtikel Article 2019
9Mikl, Gregor ; Obmann, Richard ; Schörpf, Sebastian ; Liska, Robert ; Konegger, Thomas Pore Morphology Tailoring in Polymer-derived Ceramics generated through Photopolymerization-assisted Solidification TemplatingArtikel Article 2019
10Schörpf, Sebastian ; Catel, Yohann ; Moszner, Norbert ; Gorsche, Christian ; Liska, Robert Shrinkage stress reduction of polymerizing networksvia combination of vinylcyclopropanes withaddition fragmentation chain transferKonferenzbeitrag Inproceedings2019
11Catel, Yohann ; Fässler, Pascal ; Fischer, Urs ; Gorsche, Christian ; Liska, Robert ; Schörpf, Sebastian ; Tauscher, Sven ; Moszner, Norbert Synthesis and polymerization of vinylcyclopropanes bearing urethane groups for the development of low-shrinkage compositesArtikel Article 2018
12Schörpf, Sebastian ; Catel, Yohann ; Moszner, Norbert ; Gorsche, Christian ; Liska, Robert Reduction of polymerization-induced shrinkage stress via combination of radical ring opening and addition fragmentation chain transferKonferenzbeitrag Inproceedings2018
13Schörpf, Sebastian ; Gorsche, Christian ; Catel, Yohann ; Moszner, Norbert ; Liska, Robert Urethane-based vinylcyclopropanes (VCPs) for low shrinkage dental compositesKonferenzbeitrag Inproceedings2017
14Catel, Yohann ; Fässler, Pascal ; Fischer, Urs Karl ; Gorsche, Christian ; Schörpf, Sebastian ; Tauscher, Sven ; Liska, Robert ; Moszner, Norbert Evaluation of Difunctional Vinylcyclopropanes as Reactive Diluents for the Development of Low-Shrinkage CompositesKonferenzbeitrag Inproceedings2017
15Catel, Yohann ; Fässler, Pascal ; Fischer, Urs Karl ; Gorsche, Christian ; Schörpf, Sebastian ; Tauscher, Sven ; Liska, Robert ; Moszner, Norbert Evaluation of Difunctional Vinylcyclopropanes as Reactive Diluents for the Development of Low-Shrinkage CompositesArtikel Article 2017
16Schoerpf Sebastian - 2017 - Urethane based vinylcyclopropanes for low shrinkage...pdf.jpgSchörpf, Sebastian Urethane based vinylcyclopropanes for low shrinkage dental compositesThesis Hochschulschrift 2017