Faculty of Mathematics and Natural Sciences Department of Chemistry auf deutsch

Veranstaltungen mit geplanten Räumen finden i.a. in Präsenz statt.
Digitale Angebote sind optional.

winter sem. 2021
Last update: 01.12.21 11:03:22

WS 2021 SS 2022
WS 2021
WS 2020 SS 2021
Department of Chemistry
open physics
KVL / Klausuren / MAP 1st HS: 18.10  2nd HS: 13.12  sem.br.: 21.02  begin SS: 10.04

4020215100 Basics and methods of modern crystal growth  VVZ 

Wed 11-13
weekly NEW 14 1'10 (16) Thomas Schröder, Radhakrishnan Sumathi, Jens Martin
Thu 9-11
14-day NEW 14 1'14 (24) Jens Martin

Digital- & Präsenz-basierter Kurs

Insights into novel questions of material science

Discussion of novel applications of specialized crystals

Critical thinking

Providing background knowledge to conduct Master thesis at IKZ
Introduction to Solid State Physics

BSc in physics, material science or nano science
Structure / topics / contents
Modern applications in our daily life rely on high performance electronic and photonic technologies based on state-of the-art crystalline materials. In this course, we give an overview on modern growth techniques based on volume crystals (Czochralski, Floating-Zone etc.) and thin film techniques (Chemical Vapor Deposition, Molecular Beam Epitaxy etc.) as well as on 2D layer deposition methods for graphene, transition metal chalcogenides etc. Special attention will be given to current hot topics in this exciting field with respect to basic research challenges as well as technological applications.
Assigned modules
Amount, credit points; Exam / major course assessment
3 SWS, 6 SP/ECTS (Arbeitsanteil im Modul für diese Lehrveranstaltung, nicht verbindlich)
Final test
Possibility to conduct practica and master thesis at IKZ

Lab-Tour through IKZ
Thomas Schröder (thomas.schroeder@ikz-berlin.de), Radhakrishnan Sumathi (radhakrishnan.sumathi@ikz-berlin.de), Jens Martin (jens.martin@ikz-berlin.de)
B. R. Pamplin (Ed.). Crystal Growth. Pergamon Press, Oxford 1975.
F. E. Rosenberger. Fundamentals of Crystal Growth I. Springer, Berlin 1981
D. T. J. Hurle (Ed.). Handbook of Crystal Growth, I & II. Elsevier 2015, II Edition
P. AVOURIS, T.F. HEINZ, T. LOW. 2D Materials, Properties and Devices. Cambridge University Press, Materials Research Society 2017
Ivan V Markov. Crystal Growth for Beginners. World Scienctific 2017, III Edition
Quod vide:
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