Identifying Data 2019/20
Subject (*) Structured materials. Nanomaterials Code 730495010
Study programme
Mestrado Universitario en Materiais Complexos: Análise Térmica e Reoloxía (plan 2012)
Descriptors Cycle Period Year Type Credits
Official Master's Degree 1st four-month period
First Obligatory 3
Teaching method Face-to-face
López Beceiro, Jorge José
Carn , Florent
General description Este curso introduce ás recentes estratexias para a estructuración de materiais duros (nanopartículas, nanocompuestos e monolitos porosos jerárquicamente) mediante fluídos complexos. Fluídos complexos que normalmente considéranse: solucións de moléculas de gran tamaño (por exemplo, polímeros.) ou estruturas supramoleculares (por exemplo, micelas ..) nos líquidos ordinarios, espumas ou emulsiones. O obxectivo deste curso é ilustrar a forma física de fluídos complexos e os conceptos que poden aplicarse ao deseño racional de materiais avanzados. Para cada sistema, farase fincapé en: a estrutura / propiedades dos materiais sólidos finais; a estrutura e a estabilidade de fluídos complexos e preséntanse algunhas técnicas de caracterización específicos.
Contingency plan

Study programme competencies
Code Study programme competences
A1 Set up and conduct tests using the techniques of thermal analysis and rheology most appropriate in each case, within the scope of complex materials
A5 Understanding the relationships between structure and properties of materials
B1 Knowledge and understanding to provide a basis or opportunity for originality in developing and / or applying ideas, often in a research context
B2 The students have the skill to apply their knowledge and their ability to solve problems in new or unfamiliar contexts within broader (or multidisciplinary) contexts related to their field of study
B4 That the students can communicate their conclusions and the knowledge and last reasons behind that conclusions to specialized and non specialized audience in a clear and unambiguous way
B13 Analysis-oriented attitude
B14 Ability to find and manage the information
B17 Analyze and decompose processes
B18 Ability for abstraction, understanding and simplification of complex problems
B21 To assess the importance of research, innovation and technological developments in the socio-economic and cultural progress of society
B22 Understand the importance of protecting the environment
C2 Have a good command of spoken and writing expression and understanding of a foreign language.
C6 Critically assessing the knowledge, technology and information available to solve the problems they face with.
C7 To assume as a professional and citizen the importance of learning throughout life.
C8 To assess the importance of research, innovation and technological development in the socio-economic and cultural progress of society.

Learning aims
Learning outcomes Study programme competences
This course introduces recent strategies for structuring hard materials (nanoparticles, nanocomposites and hierarchically porous monoliths) by complex fluids. Complex fluids that are typically considered: solutions of large molecules (eg polymers.) Or supramolecular structures (eg micelles..) In ordinary liquids, foams or emulsions. The aim of this course is to illustrate how complex physical concepts of fluid can be applied to the rational design of advanced materials. For each system, the emphasis will be on: structure / properties of the final solid materials; the structure and stability of the complex fluids. Some specific characterization techniques presented. AR1

Topic Sub-topic
1. Fundamentals of physicochemical Interfaces Fundamentos físico químicos de interfases
2. Solid hierarchically porous Sólidos xerárquicamente porosos
3. Nanoparticles Nanopartículas
4. Nanocomposites Materiais nanocompostos
5. Biogels Bioxeles

Methodologies / tests Competencies Ordinary class hours Student’s personal work hours Total hours
Guest lecture / keynote speech A1 A5 B14 12.5 12.5 25
Laboratory practice A1 B2 B17 B18 C8 20 4 24
Supervised projects B1 B4 B13 B21 B22 C2 C6 C7 4 20 24
Personalized attention 2 0 2
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students.

Methodologies Description
Guest lecture / keynote speech Presentation given by the professor, on a schematic basis, focusing on the main topics, covering both theoretical and practical issues.
Laboratory practice Performance of practical activities such as demonstrations, exercises, experiments, etc..
Supervised projects Activities whose purpose is that the students enlarge the study of the topics pesented in the program and consolidate their acquired knowledge and capabilities. These activities should also help the students learn and improve their capabilities in literature survey.

Personalized attention
Guest lecture / keynote speech
Laboratory practice
Supervised projects
The personalized attention to students, understood as a support in the teaching-learning process, will take place in the hours of tutoring of the professor.

No academic dispensation is accepted.

Methodologies Competencies Description Qualification
Guest lecture / keynote speech A1 A5 B14 Continuous assessment through monitoring of student work in the classroom, laboratory and / or tutorials. 50
Laboratory practice A1 B2 B17 B18 C8 Continuous assessment through monitoring of student work in the classroom, laboratory and / or tutorials. 20
Supervised projects B1 B4 B13 B21 B22 C2 C6 C7 Presentation (oral and written) of the supervised work. 30
Assessment comments

Sources of information


Subjects that it is recommended to have taken before

Subjects that are recommended to be taken simultaneously

Subjects that continue the syllabus

Other comments

To help achieve a sustained immediate environment and meet the objective of action number 5: "Healthy and sustainable environmental and social teaching and research" of the "Green Campus Ferrol Action Plan:

            The delivery of the documentary work carried out in this subject:

              - They will be requested in virtual format and/or computer support

              - It will be done through Moodle, in digital format without the need to print them.

             - If it is necessary to make them on paper:

                  - Plastics shall not be used

                 - Double-sided printing shall be carried out.

                 - Recycled paper will be used.

                 - Printing of drafts shall be avoided.

  - A sustainable use of resources and the prevention of negative impacts on the natural environment must be made.

  - It will work to identify and change gender biases and attitudes, and influence the environment to change them and promote values of respect and equality.

  - Situations of discrimination should be identified and actions and measures proposed to correct them.

(*)The teaching guide is the document in which the URV publishes the information about all its courses. It is a public document and cannot be modified. Only in exceptional cases can it be revised by the competent agent or duly revised so that it is in line with current legislation.