Micro and Nanotechnology
Module: ELECTIVE
Matter: ELECTIVE
Main language of instruction: English
Other languages of instruction: Catalan, Spanish,
Sem.1 | TU | 14:00 16:00 | P2A03 | |
Sem.1 | FR | 16:00 18:00 | P2A03 |
Head instructor
Dr. Emilio CASTRO - ecastro@uic.es
Office hours
Hours agreed with the teacher at the beginning of the academic year. In any case, you can make an appointment and arrange a face-to-face tutoring with the teacher by writing to the email ecastro@uic.es.
Countless healthcare and biomedical solutions with high impact in terms of timely diagnostics, therapeutic success, patient comfort or financial sustainability of healthcare systems rely on micro- and nanotechnologies. Thus, it is not at all exaggerate to claim that such technologies play in current days a tremendous role with respect to improving the quality of our life, health and well-being, which are the main priorities of modern science. Harmonically combining biomaterials, cells and biologically relevant molecules to generate in vitro structures that mimic tissue for the proper development of regenerative medicine and tissue engineering, requires the use of micro-level manufacturing techniques and the use of nanometric materials to be able to condition not only the chemical and physical properties at the micrometer scale, but also adapt the cell interactions to this sub-micrometric level.
Subjects: Materials, Biomaterials and biocompatibility, Advanced materials and selection of materials, Shaping techniques of materials.
Upon completion of this subject, students will be able to:
During the face-to-face classes, the fundamental aspects of each topic will be exposed so that they can be developed individually by each student through the use of selected bibliography and with the support of tutorials. Innovative educational methodologies such as Peer instruction, Flipped Classroom, LegoTM Serious Play will be followed in the course.
During the course, students will be asked to complete the following training activities:
Peer Instruction - Short questions thrown by the teacher at the beginning or end of the virtual or face-to-face class on the subject being treated in the subject at that time to which students must answer individually through a forum of Question and Answer (Q&A) evaluable enabled for it in Moodle, in such a way that among the students cooperatively construct the correct answer to the short question (which may fall in the examination of the subject) - the teacher will indicate the answers of those students That they are correct and this will allow them to score points for the evaluation of active participation.
Modelling (Do it yourself - DIY) - Construction of models and models in a group, during a practical seminar-type classroom, allowing students to learn by doing (such as a carbon fullerene / nanotube model or atomic force microscope model with Lego bricks) in a Lego Serious Play type learning methodology. Once the model or model has been built, students will be asked to use that model or model to carry out an activity that allows them to deepen their knowledge of the technology, technique or modelled material following a script provided by the teacher.
Treasure Hunt (Reading Promotion) - Divide the classroom into two groups, each with a spokesperson who goes to the library to look for a book indicated by the teacher (different for each group), in such a way that each one of the groups, look for a series of data or explanations requested by the teacher in the indicated book and cooperatively build a document with those data and explanations taken from the book and to be delivered, through the spokesperson, via the Moodle task, to the teacher at the end of class. The teacher will give points of active participation in the evaluation of the subject to the group that does it best.
Flipped Classroom - The teacher will post a link to a YouTube video in the Moodle about some aspect of the subject's syllabus that the students will visualize either as homework before the corresponding non-face-to-face class or during the break of the face-to-face class projecting it on the class screen. After viewing the video, the teacher will propose to the students to take a quiz through a tool like Socrative or Kahoot using their mobile phones, tablets or computers to check the assimilation of the concepts covered in the video. The teacher will give active participation points in the subject to students who answer correctly and more quickly to the quiz questions.
Laboratory practices - Learning based on small research projects in which they individually develop the script of the proposed practices themselves from a basic bibliography of consultation and a list of equipment available in the laboratory of degree practices, work cooperatively to obtain experimentally in the grade practice laboratory, some nanoparticles or a microfluidic device and present / explain to the rest of their classmates and the teacher their work procedure, materials used and results obtained as a research seminar.
The structure of the subject in theoretical and practical sessions involves the evaluation of the knowledge and skills acquired in a differentiated and complementary manner. In the case of the contents of the theoretical sessions, they will be evaluated in a partial and in a final test, both written and that will take into account both the ability to relate the contents of the different topics in a transversal way, as well as the development of one´s own thinking. Regarding the practical part of the subject, the evaluation will be continue, considering the following aspects with different relative weight: active participation in class, final course work and peer evaluation, laboratory practices, debate after the reading of the complementary bibliography. In order for both parts of the subject to be able to average and thus obtain the final grade for the subject, it will be necessary for both parts of the subject to be passed independently.
The student´s qualification will be:
1st call
Assessment type |
Evaluation system |
Weighing |
Summative evaluation |
Final exam |
35 % |
Summative evaluation |
Midterm exam |
25 % |
Formative assessment |
Oral presentation – research seminar |
15 % |
Diagnostic evaluation |
Self-assessment test |
0 % |
Authentic evaluation |
Laboratory practices |
15 % |
Active participation |
Peer instruction Flipped classes Modelling Treasure hunt |
10 % |
2nd call
Assessment type |
Evaluation system |
Weighing |
Summative evaluation |
Final exam |
70 % |
Formative assessment |
Oral presentation – research seminar |
15 % |
Diagnostic evaluation |
Self-assessment test |
0 % |
Authentic evaluation |
Laboratory practices |
15 % |
Important considerations:
(1). Rogers, B., Adams, J., Pennathur, S. (2017). Nanotechnology: understanding small systems. CRC Press.
(2). Mendelson. M. I. (2018). Learning Bio-Micro-Nanotechnology. CRC Press.
(3). Abdullaeva, Z. (2017). Nano- and Biomaterials: Compounds, Properties, Characterization, and Applications. Wiley-VCH Verlag.
(4). Bhushan, B. (2017). Handbook of nanotechnology. Springer.
(5). Poole Jr., C. P., Owens. F.J. (2003). Introduction to Nanotechnology. Wiley-Interscience.
During the course, innovative articles and reviews on specific aspects discussed in it will appear in scientific journals and we will discuss some of them.
E: exam date | R: revision date | 1: first session | 2: second session: