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Presentation
Presentation
UC Nanotechnologies has a vast area of expertise in Biomedical Engineering. Nanotechnology is a technology practice that designs, manipulates, controls, develops and manufactures products and processes on a very small scale. Nanotechnology operates structures, devices and systems on a nanoscale scale.
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Class from course
Class from course
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Degree | Semesters | ECTS
Degree | Semesters | ECTS
Bachelor | Semestral | 4.5
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Year | Nature | Language
Year | Nature | Language
3 | Optional | Português
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Code
Code
ULHT2532-16923
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Prerequisites and corequisites
Prerequisites and corequisites
Not applicable
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Professional Internship
Professional Internship
Não
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Syllabus
Syllabus
1. Introduction to nanotechnology 2. Characterization techniques 3. Nanomaterials 4. Carbon Nanomaterials 5. Metal nanomaterials 6. Ferromagnetic Nanomaterials 7. Introduction to Nanodevices 8. BioNanotechnology - DNA Origami 9. NanoElectronics 10. NanoEnergia - energy production and 11. Nanomaterials safety, ethics and
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Objectives
Objectives
The student should be able to understand and master the following aspects of the curricular unit: 1. Acquire an integrated training in nanotechnology, emphasizing the application of nanotechnology to several areas of knowledge; 2. Must be able to master the processes of manufacture and characterization of nanomaterials; 3. Be able to adapt the development of nanomaterials for biological and medical applications; 4. Know how to distinguish the various applications of nanoparticles to biological systems and biomedical devices; 5. Know and distinguish the various nanomaterials and therapeutic applications; 6. Be able to master the techniques of production and characterization nanomaterials; 7. The student should apply nanomaterials to different areas of knowledge
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Teaching methodologies
Teaching methodologies
Also include the innovative methodologies used to support the teaching-learning process.
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References
References
Poole, Charles P.; Owens, Frank J. - Introduction to nanotechnology. Published by John Wiley & Sons, Inc., Hoboken, New Jersey, 2003. Livro. ISBN 0-471 -07935-9 Mongillo, John - Nanotechnology 101. Greenwood Press, 88 Post Road West, Westport, New York, 2007. Livro. ISBN:13: 978-0-313-33880-9 Bhushan, Bharat (Ed.) - Handbook of Nanotechnology. Springer-Verlag Berlin Heidelberg 2004. Livro. ISBN 3-540-01218-4
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Assessment
Assessment
Descrição dos instrumentos de avaliação (individuais e de grupo) ¿ testes, trabalhos práticos, relatórios, projetos... respetivas datas de entrega/apresentação... e ponderação na nota final.
Exemplo:
Descrição
Data limite
Ponderação
Teste de avaliação
dd-mm-yyyy
50%
Relatórios laboratoriais e resumos de artigos científicos
dd-mm-yyyy
50%
(...)
A avaliação é realizada através de uma frequência (50% da nota final) relatório dos trabalhos de laboratório (50%). Os alunos para concluir a UC com sucesso terão que ter uma nota igual ou superior a 10 quer na frequência quer nos trabalhos de laboratório. Se o aluno tiver uma nota inferior a 10, na frequência ou nos trabalhos de laboratório reprova na UC. Os alunos poderão ir a exame fazer a parte teórica, mas têm que ter sempre a nota dos trabalhos de laboratório com valor igual o superior a 10. Os alunos são obrigados a assistir no mínimo a 80% das aulas teóricas e laboratoriais.
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Mobility
Mobility
No
