Objective of Training
Training master’s degree in Materials Science aim to help the students have sound knowledge of the subject and high skills at materials preparing technologies, especially materials for electronic industry.
Schedule of Training
Program is designed in one year (two semesters). According to Rule of Credit Training, student can finish their program in a maximum of two years (four semesters).
Quantitative Program
a. Research Orient: 57 credits
b. Applied Orient: 36 credits
Contestant
a. Degree: contestants have to require one of the following admissions
a1. Having five-year Bachelor’s degree in Physics, Chemistry, Materials Science and Technology.
a2. Having Bachelor’s degree in Electronics.
a3. Having Bachelor’s degree in Electrics, Mechanical Electronics.
a4. Having four-year Bachelor’s degree in Physics, Chemistry, Materials Science and Technology.
b. Experience
· Contestants who had Bachelor’s degree rating Good can take the exam after their graduation.
· The others have their working experience in one year at least.
c. Supplement and Convert
a1. No supplement and convert
a2. Supplementing: 10 credits
a3. Converting: 6 credits and supplementing: 10 credits
a4. Supplementing: 10 credits
Scale of grade
Letter grade and Grade of 4 are adopted for assessing official result of student. The grade of 10 is adopted for
|
Grade of 10 |
Grade of 4 |
Letter mark |
Numeric mark |
Pass* |
From |
8,5 |
To |
10 |
A |
4 |
From |
7,0 |
To |
8,4 |
B |
3 |
From |
5,5 |
To |
6,9 |
C |
2 |
From |
4,0 |
To |
5,4 |
D |
1 |
No pass |
Under 4,0 |
F |
0 |
* For Thesis: can pass with grade C at least.
Program
a. Structure of Program
Content |
Research Orient
Netherlands
Sandwich Program
(57 credits) |
Applied Orient
(36 credits) |
Part 1. General knowledge (Philosophy) |
4 |
4 |
Part 2. General and specialized knowledge |
Mandatory general knowledge |
9 |
9 |
Mandatory specialized knowledge |
19 |
7 |
Optional specialized knowledge |
8 |
8 |
Part 3. Thesis |
15 |
8 |
b. List of Subjects
|
Code |
List of Subjects |
Credits |
Subject for Both of Orients |
General knowledge |
SS6010 |
Philosophy |
4 |
FL6010 |
English |
|
Mandatory general knowledge |
MSE6010 |
Characterization of Materials |
3 |
MSE6020 |
Advanced Materials Science |
3 |
MSE6030 |
Materials Synthesis and Fabrication |
3 |
Research Subjects |
Mandatory specialized knowledge |
IMS6010 |
Advanced English |
2 |
IMS6020 |
Applied Quantum Physics |
3 |
IMS6030 |
Applied statistical physics |
3 |
IMS6040 |
Advanced
Solid
State Physics |
3 |
IMS6050 |
Biological Physics and Soft Condensed Matter |
3 |
IMS6060 |
Electronic Structure and bonding in Molecules and Solids |
2 |
IMS6070 |
Semiconductor Physics |
2 |
IMS6080 |
Magnetism, Magnetic Materials and Superconductivity |
3 |
Optional specialized knowledge |
IMS6090 |
Microsystems technology |
2 |
IMS6100 |
Physics and technology of semiconductor integrated circuits (IC) and sensors |
2 |
IMS6110 |
Optoelectronic Materials and Devices |
2 |
IMS6120 |
Nanostructured materials |
2 |
IMS6130 |
Physics informatics |
2 |
IMS6140 |
Magneto-Optics |
2 |
IMS6150 |
Spintronics |
2 |
IMS6160 |
Sol-gel Technology |
2 |
IMS6170 |
Materials Chemistry |
2 |
Applied Subjects |
Mandatory specialized knowledge |
IMS6060 |
Electronic Structure and bonding in Molecules and Solids |
2 |
IMS6070 |
Semiconductor Physics |
2 |
IMS6080 |
Magnetism, Magnetic Materials and Superconductivity |
3 |
Optional specialized knowledge |
IMS6090 |
Microsystems technology |
2 |
IMS6100 |
Physics and technology of semiconductor integrated circuits (IC) and sensors |
2 |
IMS6110 |
Optoelectronic Materials and Devices |
2 |
IMS6120 |
Nanostructured materials |
2 |
IMS6130 |
Physics informatics |
2 |
IMS6140 |
Magneto-Optics |
2 |
IMS6150 |
Spintronics |
2 |
IMS6160 |
Sol-gel Technology |
2 |
IMS6170 |
Materials Chemistry |
2 |
IMS6190 |
General Management in High-tech Industries |
2 |
IMS6210 |
IC Packaging and Assembly |
2 |
IMS6240 |
Smart materials and its applications |
2 |
c. Supplementing and Converting Subjects
|
Code |
Subjects |
Credits |
Converting Subjects |
PH3110 |
Solid state physics |
3 |
MSE3016 |
Introduction to Materials Science and Engineering |
3 |
Supplementing Subjects |
PH3060 |
Quantum Physics |
3 |
PH3120 |
Statistical physics |
3 |
PH4040 |
Physics and technology of thin films |
2 |
PH4110 |
Solid state chemistry |
2 |
|