Expected knowledge: • development of knowledge that extends and/or reinforces the ones received from preparatory courses and allow to mature and/or apply original ideas and design methods to the development of a technological process flow for the production of integrated circuits and microsystems; • knowledge of the physical-chemical behaviour of materials to be used in micro and nanotechnologies. • knowledge of the basic technologies for microstructure fabrication. • knowledge of materials and technologies for Microsystems and MEMS fabrication. • knowledge of techniques and issues related to the fabrication and verification of nanosystems. Expected competences and skills • ability to select the most suited and to apply materials and technologies for the fabrication of microstructure and microsystems. • ability to apply the knowledge gained in a research and/or industrial framework, understanding capability and skills in solving problems related to the design, simulation and implementation of microelectronic circuits and microsystems also applied to new or unfamiliar issues or entered into application contexts broader and more interdisciplinary than the engineering sector (medicine, environmental monitoring, food, ...); • ability to integrate technical knowledge and to manage the complexity of the design and manufacturing process flow, to evaluate the quality and robustness of a process flow, its implementation and feasibility, choosing the most efficient solutions from the available options; • ability to communicate in a clear and unambiguous way technical aspects relating to the design and manufacture of integrated circuits and microsystems, both in writing and oral form and to both specialists and non-specialists; • development of self-learning skills to allow the student to continue to learn autonomously new techniques and design methodologies and fabrication techniques for integrated circuits and microsystems, not necessarily explained and described during the course.

• Elementary physics (mechanics, thermodynamics, wave optics, fluidics, elements of structure of matter) • Elements of modern physics • Elements of electronics • Elements of electronic devices • Elements of chemistry and materials science

Integrated Circuits technologies (wafer preparation, cleanroom technology, silicon oxidation, epitaxy, CVD, evaporation, sputtering, electroplating, diffusion, ion implantation) (2 ECTS) Lithographic techniques, wet etching, dry etching, back-end technologies, CMOS process flow (2 ECTS) Introduction to MEMS and NEMS, bulk micromachining, surface micromachining, LIGA, wafer bonding, MEMS packaging, MEMS complementary technologies (2 ECTS). No distinction to be reported for the content of the course according to the fact that it will be carried out in presence or remotely.

The course consists of lectures delivered by slides and the use of the blackboard (or alternative tools like graphical tablet or similar in case of remote or blended lectures). The slides will be made available to students in pdf format on the Internet Didactic Portal at the beginning of the course.

The didactic material (slides for the lectures) will distributed in pdf format by the teacher and uploaded on the Didactic Portal before the course start. All the lectures will be moreover recorded and related videos made available on the Didactic Portal. Suggested but not mandatory books will be specified by the teacher. Among them: - “Microsystem Technology”, W. Menz, J. Mohr, O.Paul, Wiley-VCH ed.

Lecture slides; Video lectures (previous years);

Exam: Written test;

The exam involves a written proof including both multiple-answer questions and open questions and short exercises. The total allotted time is 60 mins. The type of proposed questions aims to test the student ability to understand and revision the topics covered in class lectures, with particular reference to the ability to compare similar technologies, compare results or processing parameters of technological processes or performance of different materials. The main evaluation criteria of the exam consist in the correctness of the tests solutions, the completeness and synthesis of the responses to the open questions and the correctness of the employed technical language.

In addition to the message sent by the online system, students with disabilities or Specific Learning Disorders (SLD) are invited to directly inform the professor in charge of the course about the special arrangements for the exam that have been agreed with the Special Needs Unit. The professor has to be informed at least one week before the beginning of the examination session in order to provide students with the most suitable arrangements for each specific type of exam.