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AUSTRIA Vienna University of Technology TU Wien Montanuniversitaet Leoben BELGIO VITO-Vision on Technology KU Leuven Ghent University BULGARIA University of Ruse Bulgarian Academy of Sciences Technical University of Sofia CZECH REPUBLIC University of Chemistry and Technology, Prague Technical University of Liberec SVÚM a.s. University of Chemical Technology, Prague GERMANY Helmholtz-Zentrum Geesthacht Bundesanstalt für Geowissenschaften und Rohstoffe (BGR) Institut für Aufbereitung, Deponietechnik und Geomechanik, TU Clausthal SPAIN University of Burgos TECNALIA RESEARCH & INNOVATION UBU-ICCRAM ENSA Graphenea ESTONIA Tallinn University of Technology-Faculty of Mechanical Engineering Institute of Physics, University of Tartu Estonian Nanotechnology Competence Centre FRANCE CEA Grenoble CNRS-Institut Jean Lamour FINLAND VTT Technical Research Centre of Finland Ltd University of Oulu UNITED KINGDOM University of York HUNGARY Bay Zoltan Nonprofit Ltd for Applied Research Hungarian Academy of Sciences, Centre for Energy Research – Institute for Technical Physics and Materials Science ITALY ENEA University of Cagliari Politechnic University of Marche EcoRecycling srl University of L’Aquila Confindustria Nord Sardegna Cluster Marche e-Living e Marche Manufacturing Associazione Italiana di Metallurgia LUXEMBOURG Luxembourg Institute of Science and Technology LITHUANIA Lithuanian Energy Institute LATVIA NEOMAT Riga Technical University NORWAY SINTEF NETHERLANDS Delft University of Technology PORTUGAL Instituto Superior Tecnico Charge2C-NewCap POLAND Institute of Advanced Manufacturing Technology J.G. Service Grzegorz Reszka Institute of Non-Ferrous Metals ROMANIA National R&D Institute for Nonferrous and Rare Metals University POLITEHNICA of Bucharest Center of Surface Science and Nanotechnology (CSSNT) University of Pitesti SWEDEN KTH, Royal Institute of Technology Kungliga Tekniska Högskolan SLOVENIA Slovenian National Building and Civil Engineering Institute SLOVAKIA Institute of Physics, Slavak Academy of Sciences Institute of Materials Research TURKEY Middle East Technical University Ataturk University Tusas Engine Industries (TEI) SERBIA Institute of Nuclear Sciences (VINCA) EUROPEAN BODIES VTT Technical Research Centre of Finland Ltd INTERNATIONAL ORGANISATIONS Institute of Geotechnics Slovak Academy of Sciences Forschungszentrum Jülich .

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Differentiation of Physical and Chemical Cross-Linking in Gelatin Methacryloyl Hydrogels Lisa Rebers 1,+ , Raffael Reichsöllner 2,+ , Sophia Regett 1, Günter E
Supplementary Information Differentiation of Physical and Chemical Cross-Linking in Gelatin Methacryloyl Hydrogels Lisa Rebers 1,+ , Raffael Reichsöllner 2,+ , Sophia Regett 1, Günter E. M. Tovar 1,3, *, Kirsten Borchers 1,3 , Stefan Baudis 2 and Alexander Southan 1, * 1 Institute of Interfacial Process Engineering and Plasma Technology, University of Stuttgart, Stuttgart, Germany. 2 Christian Doppler Laboratory for Advanced Polymers for Biomaterials and 3D Printing, Institute of Applied Synthetic Chemistry, TU Wien, Vienna, Austria. 3 Fraunhofer Institute for Interfacial Engineering and Biotechnology, Stuttgart, Germany. * [email protected], [email protected] + These authors contributed equally. Figure S1: 1H-NMR spectra of gelatin used for methacryloylation (GM) (and acetylation (GMA)) and its derivatives. Unmodified lysine groups, only present in the spectrum of the unmodified gelatin, were highlighted in dark grey, acrylic protons of methacryloyl groups in light grey. The figure was created with Origin 2019b (https://www.originlab.com/2019b). Figure S2: Utilized temperature profile for physical gelation prior to chemical cross-linking. The 37 °C warm GM-solutions were cooled for 20 min to 21 °C followed by cooling to 4 °C 40 min (green dotted lines). Afterwards, infrared spectroscopy (IR) acquisition was started (orange dotted line) and the UV light was turned on 5 s later (blue dotted line). The figure was created with Origin 2019b (https://www.originlab.com/2019b). Figure S3: Circular dichroism (CD) spectra of gelatin ( A), GM2 ( B), GM2A8 ( C) and GM10 ( D). CD spectra were recorded at 37 °C or after cooling procedure (37 °C to 21 °C for 20 min followed by cooling to 4 °C for 40 min).
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Probabilistic Engineering Mechanics
PROBABILISTIC ENGINEERING MECHANICS AUTHOR INFORMATION PACK TABLE OF CONTENTS XXX . • Description p.1 • Audience p.2 • Impact Factor p.2 • Abstracting and Indexing p.2 • Editorial Board p.2 • Guide for Authors p.4 ISSN: 0266-8920 DESCRIPTION . This journal provides a forum for scholarly work dealing primarily with probabilistic and statistical approaches to contemporary solid/structural and fluid mechanics problems encountered in diverse technical disciplines such as aerospace, civil, marine, mechanical, and nuclear engineering. The journal aims to maintain a healthy balance between general solution techniques and problem- specific results, encouraging a fruitful exchange of ideas among disparate engineering specialities. From time to time, review papers will be published to provide research and development oriented readers with state-of-the-art analyses of various areas of current interest. In addition, occasional papers of tutorial nature help enhance practice oriented readers' knowledge of the basic probabilistic and statistical techniques that are essential in present-day engineering practice design. In consultation with the editors, distinguished members of the probabilistic mechanics community may serve as guest editors for a special issue dedicated to a particular theme. Fields Covered: Aerospace engineering: • Damage-tolerant and durability design of aircraft • Load spectra characterisation • Random vibration of aerospace structures Civil engineering: • Geotechnical applications • Natural hazards such as earthquakes, hurricanes,
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Entwicklungsplan 2025 der Technischen Universität Wien DOKUMENTENHISTORIE Version Datum Änderungen 1.0 Dezember 2017 2.0 April 2018 Tabelle 2: geplante Professuren 2018-2021 3.0 Mai 2019 Tabelle 2: geplante Professuren 2018-2021 Entwicklungsplan 2025 Wien, Dezember 2017 Entwicklungsplan der TU Wien 2025 3 von 52 HERZLICHEN DANK! Dieses Strategiepapier ist als Resultat eines durch das Rektorat der TU Wien initiierten Dialog- prozesses unter engagierter Mitwirkung von Vertreter_innen aller Personengruppen der TU Wien entstanden. Unser besonderer Dank gilt allen involvierten Personen, die einen Beitrag dazu geleistet haben. Entwicklungsplan der TU Wien 2025 4 von 52 Inhalt A AUSGANGSLAGE: EUROPÄISCHER UND NATIONALER KONTEXT 7 B MISSION UND HANDLUNGSFELDER DER TU WIEN 8 B.1 Strategische Kooperationen und Wissenstransfer 8 B.2 Grundsätze der TU Wien 9 B.3 Handlungsfelder der TU Wien 10 C HANDLUNGSFELD „GESELLSCHAFT“ 16 C.1 Ausbau des Wissens- und Innovationstransfers 16 C.2 Unterstützung des lebensbegleitenden Wissenserwerbs 19 C.3 Heranbildung des wissenschaftlichen/künstlerischen Nachwuchses 19 C.4 Förderung von Geschlechtergerechtigkeit und Diversität 21 C.5 TU Wien – Innovativer Treiber in der digitalen Transformation 22 C.6 Erschließung von philanthropen Mitteln 23 D HANDLUNGSFELD „FORSCHUNG/ENTWICKLUNG UND ERSCHLIESSUNG DER KÜNSTE“ 25 D.1 Positionierung der TU Wien als Forschungsuniversität 25 D.2 Einrichtung von Nachwuchsgruppen 26 D.3 Kooperationen mit österreichischen Hochschul- und Forschungseinrichtungen 27 D.4 Kooperationen mit
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Entwicklungsplan 2025 der Technischen Universität Wien 2. überarbeitete Fassung DOKUMENTENHISTORIE Version Datum Änderungen 1.0 Dezember 2017 2.0 Dezember 2020 Entwicklungsplan 2025 Wien, Dezember 2020 Entwicklungsplan der TU Wien 2025 3 von 52 Entwicklungsplan der TU Wien 2025 4 von 52 Inhalt ABKÜRZUNGSVERZEICHNIS 6 TABELLENVERZEICHNIS 7 VORWORT ZUR 2. ÜBERARBEITETEN FASSUNG 8 A AUSGANGSLAGE: EUROPÄISCHER UND NATIONALER KONTEXT 9 B MISSION UND HANDLUNGSFELDER DER TU WIEN 10 B.1 Strategische Kooperationen und Wissenstransfer 10 B.2 Grundsätze der TU Wien 11 B.3 Handlungsfelder der TU Wien 13 C HANDLUNGSFELD „GESELLSCHAFT“ 19 C.1 Ausbau des Wissens- und Innovationstransfers 19 C.2 Unterstützung des lebensbegleitenden Wissenserwerbs 22 C.3 Heranbildung des wissenschaftlichen/künstlerischen Nachwuchses 22 C.4 Förderung von Geschlechter gerechtigkeit und Diversität 23 C.5 TU Wien – Innovativer Treiber in der digitalen Transformation 25 C.6 Erschließung von philanthropen Mitteln 27 D HANDLUNGSFELD „FORSCHUNG/ENTWICKLUNG UND ERSCHLIESSUNG DER KÜNSTE“ 28 D.1 Positionierung der TU Wien als Forschungsuniversität 28 D.2 Einrichtung von Nachwuchsgruppen 29 D.3 Kooperationen mit österreichischen Hochschul- und Forschungseinrichtungen 30 D.4 Kooperationen mit Wirtschaft und Körperschaften 31 D.5 Erhöhung der internationalen Wettbewerbsfähigkeit 31 E HANDLUNGSFELD „LEHRE UND STUDIERENDE“ 40 E.1 Profilierung des Studienangebots 40 E.2 Verbesserung der Studienbedingungen 41 E.3 Steigerung der Mobilität und Internationalität 42 E.4 Einsatz innovativer
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