master in nanoscience

www.mscnano.eu
The master program has an structure of 60 ECTS (24 of compulsory courses, 21 of
elective courses and 15 corresponding to the Master Thesis)
The structure is as follows:
3 elective courses are intended to balance the background of the students (most likely
those students graduated in Chemistry or Engineering).
- Mathematical methods for nanoscience
- Classical Electrodynamics
- Fundamentals of quantum mechanics
The core of the master program is composed by all the compulsory courses:
- Fundamentals of nanoscale characterization
- Experimental techniques I: structural characterization
- Experimental techniques II: spectroscopies
- Low dimensional systems and nanostructures
- Soft matter and nanostructured materials
- Nanostructural properties
- Modeling and molecular dynamics simulations at the nanoscale
- From nanoscience to nanotechnology
plus two elective courses:
- Nanoscience: a historical perspective
- Nanotechnology-oriented research activities: seminar series
Other 2 elective courses are intended to complement the knowledge in basic topics.
- Introduction to Material science
- Fundamentals of solid-state physics
4 elective advanced courses will cover rather specific topics in different areas
- Advanced nano-scale characterization techniques
- Advanced theoretical methods in nanoscience
- Advanced topics in nanomaterials
- Dynamics of complex materials
Finally, there is an elective practical course:
- Introduction to scientific research
where the student is going to follow a training research activity in one of the current
lines developed by the research groups participating in the master.

MASTER IN NANOSCIENCE
10/11 COURSES' SCHEDULE
CODE: ELECTIVE COURSES APPEARS IN DASHED SQUARES
Monday
Tuesday Wednesday Thursday Friday
Fundamentals of
Quantum
Mechanics
A. Arnau
M. Alducin
Classical
Electrodynamics
I. Juaristi
A. Rivacoba
Mathematical
Methods in
Nanoscience
A. Rivacoba
F. Alvarez
FIRST PERIOD: 13 OCTOBER 2010- 13 NOVEMBER 2010

MASTER IN NANOSCIENCE
10/11 COURSES' SCHEDULE
CODE: ELECTIVE COURSES APPEARS IN DASHED SQUARES
Monday
Tuesday Wednesday Thursday Friday
Introduction to
Materials
Science
J. Gonzalez
J.J. del Val
Fundamentals of
Solid
State physics
E. Tchoulkov
Nanoscience, a
Historical
Perspective
P. Echenique
R. Diez
NOR
Seminar
Series *
Low-
Dimensional
Systems
N. Zabala
A. Rubio
Experimental
Techniques I
J.J. del Val
A. Alegria
Fundamentals of
Nanoscale
Characterization
I. Juaristi
A. Arnau
SECOND PERIOD: 22 NOVEMBER 2010- 22 DECEMBER 2010
10 JANUARY 2011- 4 FEBRUARY 2011
* The seminar
series will
continue until the
end of the
teaching period
Oct 10 - Jun 11

MASTER IN NANOSCIENCE
10/11 COURSES' SCHEDULE
CODE: ELECTIVE COURSES APPEARS IN DASHED SQUARES
Monday
Tuesday Wednesday Thursday Friday
Experimental
Techniques II
A. Alegria
F. Schiller
Nanostructural
Properties
A. Ayuela
A. Rubio
J. Aizpurua
Sof Matter and
Nanostructured
materials
J. Colmenero
A. Arbe
From
Nanoscience to
Nanotechnology
A. Ayuela
E. Ortega
Modeling and
Molecular
Dynamics simul.
F. Alvarez
D. Sanchez
THIRD PERIOD: 21 FEBRUARY 2011- 15 APRIL 2011

MASTER IN NANOSCIENCE
10/11 COURSES' SCHEDULE
CODE: ELECTIVE COURSES APPEARS IN DASHED SQUARES
Monday
Tuesday Wednesday Thursday Friday
Advanced
topics in
nanomateria
ls
Advanced
theoretical
methods in
nanoscience
Advanced
nano-scale
characterizati
on techniques
A. Rivacoba,
N. Zabala
Dynamics of
complex
materials
A. Moreno
FOURTH PERIOD: 1 MAY 2011- 17 JUNE 2011