Competencies and objectives

 

Course context for academic year 2012-13

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Course content (verified by ANECA in official undergraduate and Master’s degrees)

General Competences (CG)

  • CG1 : Learn to implement the different stages involved in research (from bibliographic searches to proposing the aims, designing the experiment, analysing the results and drawing conclusions).
  • CG10 : Understand the intersections between the different areas of incidence in the field of molecular nanoscience: Biology/supramolecular chemistry/materials science/solid state physics/materials engineering.
  • CG2 : Capacity for analysis and synthesis.
  • CG3 : Capacity to communicate with experts from other professional fields.
  • CG4 : Learn and learn how to express oneself in scientific English.
  • CG5 : Be well prepared to continue with further doctorate studies in this multidisciplinary field.
  • CG6 : Be well prepared to work in technological companies related to molecular nanoscience.
  • CG7 : Learn to carry out research in a team.
  • CG8 : Basic knowledge of Physical Chemistry, Molecular Chemistry (organic and inorganic), Solid State Chemistry and Physics, Materials Science and Biochemistry.
  • CG9 : Evaluate the reactions and differences between the macroscopic properties of materials and the properties of unimolecular systems and nanomaterials.

 

Specific Competences:>>basic

  • CEF1 : Knowledge of the approaches used to prepare molecular nanosystems.
  • CEF10 : Be familiar with molecular system handling and processing techniques.
  • CEF11 : Be able to design, organise and manipulate functional molecules and nanomaterials of interest.
  • CEF2 : Conceptual knowledge of supramolecular chemistry needed to design new nanomaterials and nanostructures.
  • CEF3 : Basic understanding of the foundations, use and applications of the microscopic and spectroscopic techniques used in nanotechnology.
  • CEF4 : A reasonably broad view of the potential of these techniques, the information that can be gathered, the problems they can be applied to and their limitations.
  • CEF5 : Basic understanding of nanolithography techniques.
  • CEF6 : Understanding of molecular nanomaterials: Types, preparation, properties and applications.
  • CEF7 : Knowledge of the biological and medical applications of this field.
  • CEF8 : Knowledge of the applications of nanomaterials in molecular electronics.
  • CEF9 : Knowledge of the "state of the art" in molecular nanoscience.

 

 

 

Learning outcomes (Training objectives)

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Specific objectives stated by the academic staff for academic year 2012-13

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General

Code: 36419
Lecturer responsible:
UNTIEDT LECUONA, CARLOS
Credits ECTS: 6,00
Theoretical credits: 2,40
Practical credits: 0,00
Distance-base hours: 3,60

Departments involved

  • Dept: APPLIED PHYSICS
    Area: CONDENSED MATTER PHYSICS
    Theoretical credits: 2,4
    Practical credits: 0
    This Dept. is responsible for the course.
    This Dept. is responsible for the final mark record.

Study programmes where this course is taught