The latest examples of nanostructured materials processing are introduced, and basics necessary to understand phenomena in these processing are explained. Furthermore, the nanoscale analysis for the friction phenomena in such nanostructured field is also introduced.
Students will acquire the analytical techniques for nanoprocess.
Learn the outline of nanostructured particles and nanostructured thin films formation process and their characteristics.
Thin flims, Dry process, Chemical vapor deposition, Physical vapor deposition, Etching, Microspace, Nanostructured materials, Spray pyrolysis, Electrostatic spray deposition, Energy conversion materials, Energy storage materials, Tribology
|Intercultural skills||Communication skills||Specialist skills||Critical thinking skills||Practical and/or problem-solving skills|
This course will hold two classes a week divided as follows:  nanostructured material synthesis using a dry process and explanation of its fundamentals and  nanostructured material synthesis using a microspace field and explanation of its fundamentals, and nanotribology
|Course schedule||Required learning|
|Class 1||Introduction - What is Advanced Nanoscale Chemical Process?||Understanding contents of the lecture on Advanced Nanoscale Chemical Process|
|Class 2||Characteristics of nanomaterials||Explain the characteristics of nanomaterials|
|Class 3||Thin film synthesis methods||Explain the methods for thin film synthesis|
|Class 4||Mechanism for thin films growth, nucleation and crystal growth||Explain the mechanism for thin films growth, nucleation and crystal growth|
|Class 5||Methods for nanostructured materials formation||Explainthe methods for nanostructured materials formation|
|Class 6||Synthesis process of nanostructured thin films: top-down approach||Explain the synthesis process of nanostructured thin films based on the top-down approach|
|Class 7||Synthesis process of nanostructured thin films: bottom-up approach||Explain the synthesis process of nanostructured thin films based on the bottom-up approach|
|Class 8||Synthesis process of nanostructured particles using a combination of aerosol and powder technologies||Understanding of the role of aerosol and powder technologies in nanostructured particle synthesis|
|Class 9||Synthesis process of Nanostructured thin films using aerosol technology||Understanding of the role of aerosol technology in nanostructured thin films|
|Class 10||Aerosol dynamics||Understanding of nano to micro scale aerosol dynamics|
|Class 11||Evaporation and condensation on aerosol||Understanding of evaporation and condensation in areosol|
|Class 12||Fundamentals of tribology||Understand the fundamentals of tribology|
|Class 13||Interaction between a solid surface and a lubricant||Understand surface energy, surface tension, and interaction between a solid surface and a lubricant|
|Class 14||Molecular adsorption and boundary lubrication||Understand formation of boundary lubrication film by adsorption of molecules and its lubrication mechanism|
|Class 15||Molecular structures of lubricating additives and their role||Understand molecular structures of lubricating additives and their role|
The documents prepared by the instructors will be distributed.
Some documents are distributed at the time of a lecture start as needed and the class is performed a commentary using Power point. The Power point file to use in a lecture discloses it beforehand through OCW.
The evaluation of understanding degree of the students is performed through the exercise and reports submitted by them
Shinsuke Mori: mori.s.aa[at]m.titech.ac.jp
Izumi Taniguchi: itaniguc[at]chemeng.titech.ac.jp
Saiko Aoki: aoki.s.aa[at]m.titech.ac.jp
Contact by e-mail in advance to schedule an appointment.