PORTALE DELLA DIDATTICA

PORTALE DELLA DIDATTICA

PORTALE DELLA DIDATTICA

Elenco notifiche



Nanosurfaces and Nanostructures: from synthesis to applications

01UCYPE

A.A. 2019/20

Course Language

Inglese

Degree programme(s)

Master of science-level of the Bologna process in Nanotechnologies For Icts (Nanotecnologie Per Le Ict) - Torino/Grenoble/Losanna

Course structure
Teaching Hours
Lezioni 51
Esercitazioni in laboratorio 9
Lecturers
Teacher Status SSD h.Les h.Ex h.Lab h.Tut Years teaching
Mandracci Pietro Professore Associato PHYS-03/A 31 0 9 0 6
Co-lectures
Espandi

Context
SSD CFU Activities Area context
FIS/03 6 C - Affini o integrative Attività formative affini o integrative
2019/20
The course is taught in English. This course aims to provide the knowledge of the tools needed to study the properties of nano-structured surfaces and nano-dimensional systems, their advanced physical characterization, as well as their synthesis and the modification of their physical properties at the nanoscale. This course plays a central role in the development of an Engineer expert in nanotechnologies, since the ability to study, characterize and modify the properties of physical systems at the nanoscale are of paramount importance in all aspects nanotechnology applications. The course is divided in four parts. - In the first part, the most fundamental physical aspects of the interactions between nanostructured surfaces and the ambient are treated. - The second part is devoted to the study of advanced techniques for the physical characterization of nanostructured surfaces and nano-dimensional systems. - The third part is devoted to the study of advanced techniques for the modification of surfaces at the nanoscale and the synthesis of nano-dimensional systems. - The last part deals with the application of nanodimensional systems to some specific fields.
The course is taught in English. This course aims to provide the knowledge of the tools needed to study the properties of nano-structured surfaces and nano-dimensional systems, their advanced physical characterization, as well as their synthesis and the modification of their physical properties at the nanoscale. This course plays a central role in the development of an Engineer expert in nanotechnologies, since the ability to study, characterize and modify the properties of physical systems at the nanoscale are of paramount importance in all aspects nanotechnology applications. The course is divided in four parts. - In the first part, the most fundamental physical aspects of the interactions between nanostructured surfaces and the ambient are treated. - The second part is devoted to the study of advanced techniques for the physical characterization of nanostructured surfaces and nano-dimensional systems. - The third part is devoted to the study of advanced techniques for the modification of surfaces at the nanoscale and the synthesis of nano-dimensional systems. - The last part deals with the application of nanodimensional systems to some specific fields.
- Knowledge of the physical behavior of surfaces at the nanoscale. - Knowledge of advanced techniques for the characterization of nanostructured surfaces and nano-dimensional systems. - Knowledge of advanced techniques for the modification of surfaces at nanoscale. - Knowledge of advanced techniques for the synthesis of nano-dimensional systems. - Ability to characterize surfaces and nanostructures at the nanoscale. - Ability to modify the physical properties of surfaces at the nanoscale. - Ability to synthesize nano-dimensional systems.
- Knowledge of the physical behavior of surfaces at the nanoscale. - Knowledge of advanced techniques for the characterization of nanostructured surfaces and nano-dimensional systems. - Knowledge of advanced techniques for the modification of surfaces at nanoscale. - Knowledge of advanced techniques for the synthesis of nano-dimensional systems. - Ability to characterize surfaces and nanostructures at the nanoscale. - Ability to modify the physical properties of surfaces at the nanoscale. - Ability to synthesize nano-dimensional systems.
- Elementary physics (mechanics, thermodynamics, wave optics, elements of structure of matter) - Elements of quantum mechanics - Elements of statistical mechanics - Elements of solid state physics
- Elementary physics (mechanics, thermodynamics, wave optics, elements of structure of matter) - Elements of quantum mechanics - Elements of statistical mechanics - Elements of solid state physics
Physical properties of surfaces and nanostructures and their interactions with the ambient at the nanoscale. Techniques for the physical characterization of surfaces and nanostructures (Auger Spectroscopy, Xray Photoelectron Spectroscopy, Secondary Ion Mass Spectroscopy, Rutherford Back-Scattering, Elastic Recoil Detection Analysis, Xray Diffractometry, Low-Energy Electron Diffraction, Reflection High-Energy Electron Diffraction, Extended X-ray Absorption Fine Structure). Advanced techniques for the modification of surfaces at the nanoscale (thermal, laser-assisted, plasma-assisted, assisted by ion/electron beams). Advanced techniques for the synthesis of nano-dimensional systems and some examples of applications. Laboratory lessons - modification of surfaces at the nanoscale - morphological analysis of nanostructured surfaces and nanosystems - compositional analysis of nanostructured surfaces and nanosystems - analysis of the surface energy of nanostructured surfaces and nanosystems
Physical properties of surfaces and nanostructures and their interactions with the ambient at the nanoscale. Techniques for the physical characterization of surfaces and nanostructures (Auger Spectroscopy, Xray Photoelectron Spectroscopy, Secondary Ion Mass Spectroscopy, Rutherford Back-Scattering, Elastic Recoil Detection Analysis, Xray Diffractometry, Low-Energy Electron Diffraction, Reflection High-Energy Electron Diffraction, Extended X-ray Absorption Fine Structure). Advanced techniques for the modification of surfaces at the nanoscale (thermal, laser-assisted, plasma-assisted, assisted by ion/electron beams). Advanced techniques for the synthesis of nano-dimensional systems and some examples of applications. Laboratory lessons - modification of surfaces at the nanoscale - morphological analysis of nanostructured surfaces and nanosystems - compositional analysis of nanostructured surfaces and nanosystems - analysis of the surface energy of nanostructured surfaces and nanosystems
The course involves class lectures, making use of slides which are available on the teaching portal, as well as laboratory lessons. The laboratory lessons are a considerable part of the course. The students are organized in small teams and conduct the experiments under the guide of experts.
The course involves class lectures, making use of slides which are available on the teaching portal, as well as laboratory lessons. The laboratory lessons are a considerable part of the course. The students are organized in small teams and conduct the experiments under the guide of experts.
- Teaching material distributed by the teachers. - H. Luth, "Solid Surfaces, Interfaces and Thin Films", Springer, 2010. - H. Busse and B.E. Koel, “Surface processes”, in: "Digital Encyclopedia of Applied Physics Condensed Matter F: Surfaces and Interfaces", Wiley, 2014. Other references will be communicated by the teacher during the lessons.
- Teaching material distributed by the teachers. - H. Luth, "Solid Surfaces, Interfaces and Thin Films", Springer, 2010. - H. Busse and B.E. Koel, “Surface processes”, in: "Digital Encyclopedia of Applied Physics Condensed Matter F: Surfaces and Interfaces", Wiley, 2014. Other references will be communicated by the teacher during the lessons.
Modalità di esame: Prova scritta (in aula); Prova orale facoltativa; Elaborato scritto prodotto in gruppo;
Exam: Written test; Optional oral exam; Group essay;
... The assessment criteria involve: - the student's knowledge of the main properties of nano-structured surfaces and nano- dimensional systems, of the main methods for nano-synthesis, surface modification and characterization; - the student's ability to describe, either in written or oral form, a method for the nano-synthesis, surface modification or characterization at the nanoscale, using the technical language correctly; - the student's ability to apply a method for the nano-synthesis, surface modification or characterization at the nanoscale in a laboratory environment. The exam involves a mandatory written part and an optional oral part. The written part consists of some questions concerning the topics discussed during the course. The total allotted time to answer the questions is 2 hr and a mark of 18/30 is required to pass the exam. It is not allowed to use any kind of didactic material (such as textbooks or notes) during the exam. The optional oral part consists in delivering an original student's presentation, of 15-20 min duration, which critically describes the content of a recent scientific paper related to one or more of the course topics. After the presentation, the student could be required to answer some questions related to the course topics. As a result of the of the oral exam evaluation, the written exam mark may be increased or reduced of maximum 3 points. Students who have attended at least 50% of the laboratory lessons may deliver to the teacher a report on the laboratory activities. The report must be original and must be delivered (by hand or by email) before the date of the first written exam. Its evaluation may increase the witten exam mark of 3 points at maximum .
Gli studenti e le studentesse con disabilità o con Disturbi Specifici di Apprendimento (DSA), oltre alla segnalazione tramite procedura informatizzata, sono invitati a comunicare anche direttamente al/la docente titolare dell'insegnamento, con un preavviso non inferiore ad una settimana dall'avvio della sessione d'esame, gli strumenti compensativi concordati con l'Unità Special Needs, al fine di permettere al/la docente la declinazione più idonea in riferimento alla specifica tipologia di esame.
Exam: Written test; Optional oral exam; Group essay;
The assessment criteria involve: - the student's knowledge of the main properties of nano-structured surfaces and nano- dimensional systems, of the main methods for nano-synthesis, surface modification and characterization; - the student's ability to describe, either in written or oral form, a method for the nano-synthesis, surface modification or characterization at the nanoscale, using the technical language correctly; - the student's ability to apply a method for the nano-synthesis, surface modification or characterization at the nanoscale in a laboratory environment. The exam involves a mandatory written part and an optional oral part. The written part consists of some questions concerning the topics discussed during the course. The total allotted time to answer the questions is 2 hr and a mark of 18/30 is required to pass the exam. It is not allowed to use any kind of didactic material (such as textbooks or notes) during the exam. The optional oral part consists in delivering an original student's presentation, of 15-20 min duration, which critically describes the content of a recent scientific paper related to one or more of the course topics. After the presentation, the student could be required to answer some questions related to the course topics. As a result of the of the oral exam evaluation, the written exam mark may be increased or reduced of maximum 3 points. Students who have attended at least 50% of the laboratory lessons may deliver to the teacher a report on the laboratory activities. The report must be original and must be delivered (by hand or by email) before the date of the first written exam. Its evaluation may increase the witten exam mark of 3 points at maximum .
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.
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