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Departments >> Faculty of Engineering >> Verwaltung und Serviceeinrichtungen Technische Fakultät >> MAP - Elitestudiengang Advanced Materials and Processes >>
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Geschäftsstelle des Studiengangs Advanced Materials and Processes (MAP)
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Advanced Semiconductor Technologies - Processing (including Lab Work Organic Electronics Processing) [AST-Processing] -
- Lecturers:
- Hans-Joachim Egelhaaf, Christoph J. Brabec
- Details:
- Vorlesung mit Übung, 2 cred.h, certificate, ECTS: 3, nur Fachstudium, für FAU Scientia Gaststudierende zugelassen, VL (2 ECTS) includes Lab Work "Processing of device components with roll-to-roll compatible coating methods " (1 ECTS) or the Seminar "Special topics in printed electronics" (1 ECTS), Vorbesprechung im Rahmen Vorbesprechung i-MEET am 25.4.22 um 17 Uhr, https://fau.zoom.us/j/68977984918?pwd=L0dmVkNOU3c5ZHdWT2w1cTlIYWdidz09
- Dates:
- Wed, 10:15 - 11:45, 1.225
Raum 1.225, LS für Biomaterialien, Cauerstr. 6, 91058 Erlangen
starting 4.5.2022
- Fields of study:
- WF MWT-MA ab 2
WF NT-MA ab 2
WF ET-MA ab 2
WPF MAP-S-AP ab 2
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Basics in Computational Materials Science and Process Simulation 2 [B_Compu_2] -
- Lecturers:
- Manuel Münsch, Frank Wendler
- Details:
- Vorlesung, 2 cred.h, graded certificate, ECTS: 2,5, nur Fachstudium, für FAU Scientia Gaststudierende zugelassen
- Dates:
- Tue, 10:15 - 11:45, 0.151-115
- Fields of study:
- PF MAP-K 2
- Contents:
- Programming with MATLAB
Solution of nonlinear equations
Numerical differentiation and integration
Numerical solution of differential equations
Numerical solution of transport problems: the Finite-Difference Method
Introduction to the Finite Element Method
Simulation of transport phenomena using FEM packages (ABAQUS)
Modeling of deformation processes: Elasticity and Plasticity
Numerical simulation of deformation phenomena with FEM
The lecture enables the students to learn the basics of modeling and simulation with computer software. An overview of numerical methods to numerically solve engineering problems is given. Emphasis is placed on practical application of these methods to processes involving thermodynamics, fluid mechanics and materials deformation.
- Recommended literature:
-
- Keywords:
- Elitestudiengang Advanced Materials and Processes
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Basics in Nanomaterials and Nanotechnology 2 - Nano Characterization [B_Nano2] -
- Lecturers:
- Erdmann Spiecker, Patrik Schmuki, Michael Höhlinger, u. Mitarbeiter
- Details:
- Vorlesung, 2 cred.h, ECTS: 2,5, für FAU Scientia Gaststudierende zugelassen
- Dates:
- Tue, 16:15 - 17:45, 0.68
- Fields of study:
- PF MAP-K 2
- Contents:
- Part 1:
Basics of electron microscopy
Electron matter interaction
Electron diffraction
Imaging (BF, DF, HR(S)TEM)
Examples
Part 2:
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Biomaterials for Tissue Engineering [BioMTE] -
- Lecturer:
- Aldo R. Boccaccini
- Details:
- Vorlesung, 2 cred.h, ECTS: 3, war: "Biomaterials for Tissue Scaffolds"; Prüfungssprache: Deutsch (außer MAP).
- Dates:
- Tue, 14:15 - 15:45, 1.84
- Fields of study:
- WPF MWT-MA-BIOM 2
PF MAP-S-BMP 2
WPF MT-MA-GPP 1-2
WPF NT-MA-BIOM 2
- Contents:
- Tissue Engineering und regenerative Medizin: Konzepte, Definitionen und historische Entwicklung
Scaffolds: Anforderungen, Herstellung und Charakterisierung
Beispiele: scaffolds für Tissue Engineering von Knochen und Weichgeweben
Neue Konzepte: multifunktionelle scaffolds
Medikamentös wirksame scaffolds: Tissue Engineering und drug delivery
Lernziele und Kompetenzen:
Die Studenten sollen
die überragende Wichtigkeit der Konzepte des Tissue Engineering und die Rolle der Biomaterialien dabei erfassen.
mit der Bedeutung, Herstellung, Charakterisierung, Einsatz und Bewertung von Gerüststrukturen im Tissue Engineering vertraut sein.
- Recommended literature:
- Boccaccini, Gough, J.E. (eds.): Tissue engineering using ceramics and polymers; Cambridge, 2007
Polak, Mantalaris, Harding (eds.): Advances in Tissue Engineering; Oxford u.a., 2010
Wintermantel, Suk-Woo: Medizintechnik; Berlin, 52009
Hench, Jones (eds.): Biomaterials, artifical organs und tissue engineering; Oxford, 2005
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Chemical Analysis and Structure Determination [AnStruc] -
- Lecturers:
- Peter Schulz, Alexandra Inayat, Liudmila Mokrushina, Robin N. Klupp Taylor
- Details:
- Vorlesung, 2 cred.h, graded certificate, ECTS: 2,5, nur Fachstudium, für FAU Scientia Gaststudierende zugelassen
- Dates:
- Tue, 12:15 - 13:45, 0.154-115
- Fields of study:
- PF MAP-K 2
- Keywords:
- Elitestudiengang Advanced Materials and Processes
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Immobilisation of cells and characterisation of membranes [Cells_Memb] -
- Lecturer:
- Ruth Freitag
- Details:
- Vorlesung, 2 cred.h, ECTS: 3, nur Fachstudium
- Dates:
- Wed, 8:15 - 9:45, room tbd
single appointment on 5.5.2022, single appointment on 9.6.2022, single appointment on 7.7.2022, single appointment on 14.7.2022, 8:15 - 9:45, room tbd
offered online via Microsoft Teams; for details please register on StudOn
starting 4.5.2022
- Fields of study:
- PF MAP-S-BMP 2
- Keywords:
- Elitestudiengang Advanced Materials and Processes
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Nanotechnology of Disperse Systems [Nano] -
- Lecturers:
- Robin N. Klupp Taylor, Monica Distaso
- Details:
- Vorlesung, 2 cred.h, ECTS: 5, The first session will take place on 27 April as a face to face event. Visit the following StudOn page for more information: https://www.studon.fau.de/crs4410018.html
- Dates:
- Wed, 14:15 - 15:45, 1.84
Link to the StudOn page: https://www.studon.fau.de/crs4410018.html
- Fields of study:
- WPF CBI-MA 1-3
PF MAP-S-NM 2
WPF ET-MA-VTE ab 1
WF LSE-MA 1-3
WPF CEN-MA 1-3
PF NT-MA 3
- Contents:
- This module begins with a revision of basic topics in the theory of nucleation, growth and electrostatic stabilization of particulate materials. Following this the challenges and solutions to the problem of metal, oxide, semiconductor and polymer particle synthesis will be discussed.
The second half of the course will concern the characterisation, properties and application of disperse systems. In addition to understanding the measurement of particle and agglomerate size and shape, the factors affecting the electronic, magnetic, optical and catalytic properties will be covered. Particles are often applied as part of a hierarchical system e.g. in a device, functional coating, drug delivery system. The use of self-assembly and printing/patterning techniques to achieve these goals will be presented with reference to work carried out within the Erlangen Cluster of Excellence "Engineering of Advanced Materials – Hierarchical Structure Formation for Functional Devices”. For the associated "Exercises” participants of the course will be required to explore the literature and give a 10 minute presentation regarding recent developments in a specific aspect of disperse systems or nanoparticle research.
- Keywords:
- Nanotechnology
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Numerische Methoden in den Werkstoffwissenschaften - Atomistische Methoden [NumWW] -
- Lecturer:
- Erik Bitzek
- Details:
- Vorlesung mit Übung, 4 cred.h, ECTS: 3, nur Fachstudium
- Dates:
- single appointment on 3.6.2022, 13:15 - 14:45, 1.84
single appointment on 3.6.2022, 15:00 - 18:00, 0.157-115
single appointment on 24.6.2022, 13:15 - 14:45, 1.84
single appointment on 24.6.2022, 15:00 - 18:00, 0.157-115
single appointment on 22.7.2022, 15:00 - 18:00, 0.157-115
single appointment on 22.7.2022, 13:15 - 14:45, 1.84
Vorbesprechung 06.05. 13:15-14:00 Uhr per zoom; For more information see studon: https://www.studon.fau.de/crs2202381.html
- Fields of study:
- WPF MWT-MA-AWE ab 1
PF MWT-MA-WSI 2
WPF MWT-MA-MNF ab 1
PF MAP-S-CMP 2
WF CE-MA-TA-CMS 2
- Prerequisites / Organisational information:
- This lecture will be taught in English.
Prerequisites:
(available at the Geschäftsstelle WW)
- Contents:
- The aim of the course is to build the theoretical basis required to perform and analyze cutting-edge atomistic simulations in materials science, and to provide the students with a "computational toolbox” for the most common tasks in atomistic modeling. The focus of this course lies on direct hands-on teaching. The students will work on multiple little projects related to current research topics. This will enable the students to independently perform simulations using classical MD codes like IMD and QuantumEspresso for DFT calculations.
- Recommended literature:
- Tadmor, Miller, Modeling Materials: Continuum, Atomistic and Multiscale Techniques, Cambridge University Press (January 16, 2012)
Further information on literature will be provided in the course.
- Keywords:
- Numerical Methods in Material Science
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Process Technologies [PT] -
- Lecturers:
- Martin Hartmann, Malte Kaspereit, Detlef Freitag
- Details:
- Vorlesung, 2 cred.h, certificate, ECTS: 5,0, nur Fachstudium
- Dates:
- Mon, 10:15 - 11:45, 0.031-113
- Fields of study:
- WPF CBI-MA 1-3
PF MAP-S-AP 2
- Contents:
- Das Fach Fabrikationsverfahren gibt einen Überblick über Verfahren der stoffwandelnden Produktion. Die Verfahren werden als Gesamtheit behandelt, wobei das Zusammenwirken einzelner Prozessschritte und deren Rückkopplung hinsichtlich des Gesamtverfahrens detaillierter ausgeführt werden. Dabei wird insbesondere auf den Zusammenhang zwischen den physikalisch-chemischen Grundlagen der Prozesse, der Verfahrensentwicklung und der Prozessgestaltung eingegangen. Die behandelten Verfahren orientieren sich an wichtigen Beispielen aus den Bereichen der Grundstoffe sowie der Zwischen- und Endprodukte der chemischen Industrie. Im Sinne der Prozesskunde sind neben der Reaktion auch die Trennoperationen in die Betrachtung integriert. Die Bewertung der Verfahren hinsichtlich deren Wirtschaftlichkeit und Nachhaltigkeit runden die Beschreibung der Verfahren ab.
Im Einzelnen werden folgende Schwerpunkte gesetzt:
• Rohstoffe (Rohöl, Kraftstoffe, Erdgas, technische Gase)
• Organische Basischemikalien (Synthesegas, Alkane, Alkene, Aromaten)
• Organische Zwischenprodukte (C1-C4 Alkohole, zyklische Alkohole, Ether, Epoxide, org. Säuren)
• Erneuerbare Rohstoffe
• Organische Endprodukte (Tenside, Pigmente, Polymere)
• Anorganische Basischemikalien und Zwischenprodukte (Schwefelsäure, Ammoniak, Natriumhydroxid)
• Anorganische Endprodukte (Düngemittel, Keramik, Glas)
• Prozessentwicklung (Technologien, wirtschaftliche Betrachtung)
- Keywords:
- Fabrikationsverfahren, Reaktion, Trennoperationen
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