Molecular nanoscience (MSM-nano)30 ECTS
(englische Bezeichnung: Molecular nanoscience)

Lehrveranstaltungen:

• Mandatory courses (A): Lectures & Seminars:

  A1: Supramolecular Chemistry I (2L) & II (2L)
  A2: Nanoparticles and nanostructured thin films I (1L) & II (1L)
  A3: Nanoprobes I (2L) & II (2L)
  A4: Molecular Nanoscience SEMINAR I (2S) & SEMINAR II (2S)
  A5: LAB COURSE Molecular Nanoscience (7LAB)

  • Supramolecular Chemistry I / Molekulare Materialien I, Supramolekulare Chemie I (WS 2015/2016)
    (Vorlesung, 2 SWS, Andreas Hirsch et al., Fr, 8:30 - 10:00, Kleiner HS, Henkestraße 42)
  • Supramolecular Chemistry - Molecular Materials II (SS 2016)
    (Vorlesung, 2 SWS, Andreas Hirsch et al., Fr, 8:30 - 10:00, Kleiner HS, Henkestraße 42)
  • Nanoparticles and Nanostructured Thin Films / Nanopartikel und nanostrukturierte dünne Schichten (WS 2015/2016)
    (Vorlesung, 2 SWS, Julien Bachmann, Mo, 12:15 - 14:00, A 1.42 Egerlandstr.1, H2 Egerlandstr.3; Institut für Anorganische Chemie, Egerlandstraße 1; starts 2nd week of the term)
  • Nanoprobes I (WS 2015/2016)
    (Vorlesung, 2 SWS, Rainer Fink, Di, 12:30 - 14:00, P 3.88)
  • Nanoprobes II (SS 2016)
    (Vorlesung, 2 SWS, Rainer Fink, Do, 13:00 - 14:30, P 3.88)
  • Seminar Molecular Nanoscience I (WS 2015/2016)
    (Seminar, 2 SWS, Franziska Gröhn et al., Do, 17:15 - 19:00, Kleiner HS, Henkestraße 42; ab 22.10.2015; Kann nach Ankündigung im Hörsaal H 1 oder H 2 stattfinden! Antrittsvorlesung von Prof. Sjoerd Harder am 22.10.2015 im Hörsaal H 1.)
  • Seminar Molecular Nanoscience II (SS 2016)
    (Seminar, 2 SWS, Franziska Gröhn et al., Do, 17:15 - 19:00, Kleiner HS, Henkestraße 42; Kann nach Ankündigung im Hörsaal H 2 stattfinden!)
  • Lab Course Molecular Nanoscience / Praktikum Molecular Nanoscience (WS 2015/2016)
    (Praktikum, 7 SWS, Rainer Fink et al., Zeit und Raum n.V.)
  • Praktikum Molecular Nanoscience (SS 2016)
    (Praktikum, 7 SWS, Rainer Fink et al., Zeit und Raum n.V.)
• Elective courses (B) (in total 9 SWS*):

  Courses of the student's choice related to the module and with approval by the representative of the study course

  • choose a minimum of 4 lectures (2L) and 1 seminar (1S)
    

  B1: Characterization of nanosized systems (2L)
  B2: Organic thin films (2L/1S)
  B3: Formation and characterization of supramolecular nanostructures (2L/2S)
  B4: Carbon allotropes - synthesis, properties and applications (2L/2S)
  B5: Nanoscale semiductor materials (2L)

  • Characterization of Nanosized Systems (WS 2015/2016)
    (Vorlesung, 2 SWS, Dirk Guldi, Blockveranstaltung 6.10.2015-9.10.2015 Di-Fr, 9:00 - 12:00, 14:00 - 15:30, P 3.88; in WS 15/16 block course; in WS 16/17 the lecture will be held in the usual lecture period)
  • Organic Thin Films (WS 2015/2016)
    (Vorlesung, 2 SWS, Rainer Fink, Mo, 8:30 - 10:00, P 3.88)
  • Seminar Organic Thin Films (WS 2015/2016)
    (Seminar, 1 SWS, Rainer Fink et al., Blockveranstaltung; Zeit und Ort nach Vereinbarung)
  • Formation and Characterization of Supramolecular Nanoparticles (WS 2015/2016)
    (Vorlesung, 2 SWS, Franziska Gröhn, Mo, 14:15 - 16:00, H3 Egerlandstr.3; ab 19.10.2015)
  • Seminar Formation and Characterization of Supramolecular Nanoparticles (WS 2015/2016)
    (Seminar, 1 SWS, Franziska Gröhn et al., Do, 12:15 - 13:00, P 3.88; ab 22.10.2015)
  • Carbon Allotropes: Synthesis, Properties and Application (SS 2016)
    (Vorlesung, 2 SWS, Rik Tykwinski et al., Mo, 12:15 - 13:45, Kleiner HS, Henkestraße 42)
  • Nanoscale semiconductors (SS 2016)
    (Vorlesung, 2 SWS, Julien Bachmann, Di, 8:15 - 10:00, A 1.42 Egerlandstr.1)

Empfohlene Voraussetzungen:

Admission to the M. Sc. program Molecular Science or Chemistry

Inhalt:

A1: Concepts in supramolecular chemistry; host-guest chemistry; energetics of supramolecular complexes: experimental methods; templates and self-assembly. Molecular devices. Supramolecular catalysis: principles of supramolecular catalysis, supramolecular metal catalysis, self-assembled catalysts, metal-free catalysis, enzyme mimics, antibodies, imprinted polymers.

A2: Synthesis of n-dimensional nano-materials. Systematic approaches towards nano-particles of defined size and structure are the basis to prepare materials with taylor-made electronic, optical or catalytic properties. The interplay between nano-particles, nano-rods, nano-wires, 2- and 3-dimentional materials are highlighted.

A3: Nanoscaled systems, general issues of microscopic techniques; experimental techniques with nanometer resolution: STM/AFM and 8 related scanning probes; light microscopy, confocal microscopy; electron microscopy (SEM, TEM, FEM/FIM, LEEM, PEEM), x-ray microscopy and synchrotron radiation.

A4: Specific topics in synthesis and analysis of specific molecule-based nanoscale objects

A5: focused topics in fundamental and applied research on nanoscale materials – available topics, see website http://www.chemie.uni-erlangen.de/dcp/studium/studiengaenge/molecular-science/regularien-formulare/laufzettel/→Laufzettel-Praktikum

Lernziele und Kompetenzen:

The students are able

• to explain the fundamental chemical and physical properties of nano-scale materials

• to distinguish and to compare some properties, structure and applications of different nanomaterials

• to describe and to evaluate the major concepts in supramolecular chemistry

• to explain the general issues of selected microscopic techniques and to evaluate their applications to different materials

• to prepare and to characterize nano-sized samples (thin films, nano-tubes, molecular materials, nanoparticles) using selected experimental methods and techniques (includes experiment planning and data evaluation)

• to interpret and to critically summarize measurements results in written (lab report in paper-style format) and partly oral form

• to get used to perform research-related experiments within a smaller team.

Literatur:

Manuscripts for most lectures available online
check respective information and docket (“Laufzettel”) on the Molecular Science web page

Bemerkung:

Courses of study for which the module is acceptable: M.Sc. Molecular Nanoscience

Organisatorisches:

Intended stage in the degree course: Mandatory module for Molecular Nanoscience, semester 1. and 2.
Frequency of offer: Annually/start of studies is available in summer and winter term Courses “I” in winter term, courses “II” in summer term
A5: LAB Course upon individual appointments with respective contact persons
B1–B3: winter term
B4/B5: summer term

Verwendbarkeit des Moduls / Einpassung in den Musterstudienplan:
Das Modul ist im Kontext der folgenden Studienfächer/Vertiefungsrichtungen verwendbar:

1. Molecular Science (Master of Science)
   (Po-Vers. 2013 | Pflichtmodul Molecular Science)

Studien-/Prüfungsleistungen:

Molecular Nanoscience (Prüfungsnummer: 30701)

(englischer Titel: Molecular Nanoscience)

Prüfungsleistung, mündliche Prüfung, Dauer (in Minuten): 45, benotet

Anteil an der Berechnung der Modulnote: 100.0 %

weitere Erläuterungen:
Assessment and examinations: Portfolio: PL: Oral examination (45 min, 3 examiners); LAB (SL, AP)
Calculation of the grade for the module: 100% from oral examination

Erstablegung: SS 2016, 1. Wdh.: WS 2016/2017

1. Prüfer:

Andreas Hirsch

1. Prüfer:

Rik Tykwinski

1. Prüfer:

Dirk Guldi

1. Prüfer:

Franziska Gröhn

1. Prüfer:

Rainer Fink

1. Prüfer:

Julien Bachmann