糖心原创

Nanotechnology
(Master of Science)

Two people work in a laboratory. © Irving Villegas
© Irving Villegas

Profile

Course type
Postgraduate studies (Master)
Standard Course Duration
4 semesters
Course Start
Winter semester, Summer semester
Language of Instruction
German, English
Language Requirements

Instruction language: German 
German HZB: none
International application: German C1
Instruction language: English
English B2
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Admission
Unrestricted admission
International

Stay abroad possible, but not obligatory.

Short Description

The interdisciplinary and international Master鈥檚 degree programme in Nanotechnology provides students with excellent conditions for future research work. The degree programme is run jointly by the Faculty of Electrical Engineering and Computer Science, the Faculty of Mechanical Engineering, the Faculty of Mathematics and Physics and the Faculty of Natural Sciences. 糖心原创 has state-of-the-art facilities for cutting-edge research and high-quality teaching in nanotechnology, owing to the Hannover Production Technology Centre (PZH) and the Laboratory of Nano and Quantum Engineering (LNQE), which was launched in 2010.

Course Content

  • Compulsory area: Methods of Nanotechnology
  • Specialisation areas:
  • Physical Chemistry of Nanomaterials
  • Inorganic Chemistry of Nanomaterials
  • Lasers and Photonics
  • Solar and Materials Physics
  • Micro- and Nanoelectronics
  • Chip Engineering
  • Microfabrication Technology
  • Quantum Technologies
  • Laboratories in the fields of solid-state physics, semiconductor technology, sensor technology, microtechnology, solar energy and chip design
Course Structure

In addition to the compulsory area of expertise in 鈥淢ethods of Nanotechnology鈥 in which students acquire key methodological knowledge, three optional areas of expertise are chosen as specialisations.

Provision is made for three laboratory practicals in the practical part of the Master鈥檚 degree programme. The Master鈥檚 thesis phase lasts six months and can be undertaken at one of the numerous, modernly equipped institutes and research facilities within the departments of Chemistry, Electrical Engineering, Mechanical Engineering or Physics. 

The Master鈥檚 degree programme is rounded off by courses that students choose from Leibniz Universiyt Hannover鈥檚 lecture programme (Studium Generale), enabling them to complete their education to suit their personal interests.

 

 Semester 1Semester 2Semester 3Semester 4CP
Compulsory module "Methods of Nanotechnology"
  • Physical Materials Chemistry
  • Quantum Structure Devices
 11
3 Compulsory elective modulesAreas of specialisation:
Physical Chemistry of Nanomaterials, Inorganic Chemistry of Nanomaterials, Lasers and Photonics, Solar and Materials Physics, Micro- and Nanoelectronics, Chip-Engineering, Micro-manufacturing Technology, Biomedical Engineering and Quantum Technologies
 39-48
Elective modulesElective modules in the fields of chemistry, electrical engineering, mechanical engineering and physics, in accordance with the current examination regulations 13-22
Studium Generale

Courses totalling at least 6 LP.

For the Studium Generale, students are free to choose from the university鈥檚 full range of courses, provided that the courses are awarded credit points. These modules are counted as academic achievements in the Master鈥檚 programme without being graded.

 6
3 LaboratoriesAdvanced Solid-State Physics Laboratory, Semiconductor Technology Laboratory, Sensors Laboratory 鈥 Measurement of Non-Electrical Quantities, Microtechnology Laboratory Course, Block Course 鈥楶ractical Laboratory and Simulation Work in Solar Energy鈥, 鈥楳icroelectronics 鈥 Chip Design鈥 Laboratory 12-13
Master鈥檚 thesis   

Master鈥檚 thesis

6 months

30
Recommended Abilities

A broad fundamental knowledge of science and engineering.

Career Opportunities

Graduates with a Master鈥檚 degree in Nanotechnology who wish to pursue a doctorate find that Hannover offers excellent conditions for further research. In industry, career opportunities are open to graduates in the chemical industry, physics, electronics and semiconductor technology, in mechanical engineering  as well as in biomedical engineering. They may also find employment with environmental authorities involved in environmental assessment.

Admission requirements and application

Admission Requirements

An undergraduate degree in a related field of study. The minimum requirement in the previous study programme is at least

  • 15 ECTS credits in mathematics
  • 15 ECTS-LP in one of the subjects chemistry, physics, electrical engineering or mechanical engineering and
  • at least 10 ECTS-LP in each of the other three subjects.

Further details on admission can be found in the admission regulations.

For master's degree programmes with unrestricted admission, all applicants who fulfil the admission requirements will be admitted a university place. The exact admission requirements can be found in the admission regulations: 

Application Deadlines

First-year students (application from non-EU countries: VPD from uni-assist is required)

  • 1 June 鈥 15 July of the year for the winter semester
  • 1 December 鈥 15 January of the year for the summer semester

Students resuming their studies and transfer students (application in a higher semester), (application from non-EU countries: VPD from uni-assist is required)

  • 1 June 鈥 15 July of the year for the winter semester
  • 1 December 鈥 15 January of the year for the summer semester
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 Student Advisory Services
Student Advisory Services
Address
Welfengarten 1
30167 Hannover
Building
 Student Advisory Services
Student Advisory Services
Address
Welfengarten 1
30167 Hannover
Building