Full name Familienname, Vorname
Dellago, Barbara
 
Main Affiliation Organisations­zuordnung
 

Results 1-17 of 17 (Search time: 0.006 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Gurmann, Tina ; Dellago, Barbara ; Sinawehl, Lisa ; Liska, Robert ; Baudis, Stefan Polymeric matrices for 3D-printable and biodegradable bone scaffold materialsPresentation Vortrag2-May-2023
2Dellago-2023-3D printed bone grafts Toughness enhancement utilizing PCL-ba...-ao.pdf.jpgDellago, Barbara ; Gurmann, Tina ; Altun, Altan Alpay ; Liska, Robert ; Baudis, Stefan 3D printed bone grafts: Toughness enhancement utilizing PCL-based additivesPresentation Vortrag 2023
3Dellago Barbara - 2023 - Toughness enhancing additives for additive manufactured...pdf.jpgDellago, Barbara Toughness-enhancing additives for additive-manufactured bone replacement materialsThesis Hochschulschrift 2023
4Ricke, Alexander ; Dellago, Barbara ; Ehrmann, Katharina ; Liska, Robert ; Baudis, Stefan Cyclic acetals as photopolymerizable precursors for degradable biomaterialsPresentation Vortrag28-Jun-2022
5Dellago, Barbara ; Oskar Berk ; Liska, Robert ; Baudis, Stefan Toughness Enhancers with End-Group Modifications for Photopolymerizable Bone Replacement MaterialsPresentation Vortrag2022
6Dellago-2022-Journal of Polymer Science-vor.pdf.jpgDellago, Barbara ; Altun, Altan Alpay ; Liska, Robert ; Baudis, Stefan Exploring the limits of toughness enhancers for 3D printed photopolymers as bone replacement materialsArticle Artikel 2022
7Dellago, Barbara ; Ricke, Alexander ; Geyer, Theresa ; Liska, Robert ; Baudis, Stefan Degradability Enhancers Based on Photopolymerizable Acetal Building Blocks for Artificial Bone GraftsPresentation Vortrag2022
8Dellago, Barbara ; Liska, Robert ; Baudis, Stefan End-group modified toughness enhancers for bone replacement materialsPresentation Vortrag2022
9Dellago-2021-European Polymer Journal-vor.pdf.jpgDellago, Barbara ; Ricke, Alexander ; Geyer, Theresa ; Liska, Robert ; Baudis, Stefan Photopolymerizable precursors for degradable biomaterials based on acetal moietiesArticle Artikel 5-Jul-2021
10Dellago, Barbara ; Orman, Sandra ; Liska, Robert ; Baudis, Stefan Toughness- and Degradability Enhancers for Photopolymers as Bone Replacement MaterialsKonferenzbeitrag Inproceedings2021
11Ricke, Alexander ; Dellago, Barbara ; Ehrmann, Katharina ; Liska, Robert ; Baudis, Stefan Photopolymerizable And Degradable Biomaterials Based On Acetal MoietiesKonferenzbeitrag Inproceedings2021
12Holzer, Brigitte ; Dellago, Barbara ; Thamm, Ann‐Katrin ; Mathis, Thomas ; Stöger, Berthold ; Horkel, Ernst ; Hametner, Christian ; Batlogg, Bertram ; Fröhlich, Johannes ; Lumpi, Daniel Symmetric Mixed Sulfur-Selenium Fused Ring Systems as Potential Materials for Organic Field-Effect TransistorsArtikel Article 2020
13Steinbauer, Patrick ; Reichsöllner, Raffael ; Dellago, Barbara ; Ehrmann, Katharina ; Stampfl, Jürgen ; Liska, Robert ; Baudis, Stefan Christian Doppler Laboratory for Advanced Polymers for Biomaterials and 3D PrintingPräsentation Presentation2019
14Dellago, Barbara ; Geyer, Theresa ; Liska, Robert ; Baudis, Stefan Biodegradable photopolymers based on acetal building blocks as artificial bone graftsPräsentation Presentation2019
15Dellago, Barbara ; Liska, Robert ; Baudis, Stefan Acetal Moieties as Biodegradable Functionality in Photopolymers for Bone RegenerationKonferenzbeitrag Inproceedings2019
16Dellago Barbara - 2019 - New cleavable moieties for biodegradable photopolymers.pdf.jpgDellago, Barbara New cleavable moieties for biodegradable photopolymersThesis Hochschulschrift 2019
17Holzer, Brigitte ; Dellago, Barbara ; Lumpi, Daniel ; Hametner, Christian ; Fröhlich, Johannes Symmetric Benzo[b]thiophene And Benzo[b]selenophene Based Semiconductors For Organic Fieldeffect TransistorsKonferenzbeitrag Inproceedings2015