Various materials such as organic, inorganic, or organic-inorganic hybrid materials has been widely used in various fields.
These materials have various functionalities depending on the application. Dry process is a means to impart and improve the
functionalities of the materials. In this lecture, the principle of vacuum required to perform dry process will be explained
at first, and the principle and application of various dry processes will be studied. In addition, practical examples using
dry processes will be introduced and the latest dry process will be also explained.
Purpose of this lecture is to study the principle of vacuum required to perform dry process and the principle and application
of various dry processes. In addition, practical examples using dry processes will be introduced and the latest dry process
will be also explained.
- Understanding of preparation methods and principle for surfaces and interfaces inducing functionalization
- Understanding of thermodynamics for surfaces and interfaces
- Understanding of analytical methods for surfaces and interfaces
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Preface ・Surface and interface of materials |
Survey on surface and interface of materials | 30minutes |
| 2. | Interface between solid and gas phases (1) ・Adsorption to solid surface ・Theory of Langmuir type adsorption ・Theory of BET type adsorption |
Survey of adsorption | 100minutes |
| 3. | Interface between solid and gas phases (2) ・Another adsorption theories ・Molecular kinetics theory of gases |
Review of the properties of gas | 100minutes |
| 4. | Interface between liquid and gas phases (1) ・Surface free energy ・Surface tension |
Review of thermodynamics | 100minutes |
| 5. | Interface between liquid and gas phases (2) ・Monolayer film ・Multilayer films |
Survey on monolayer and self-assembly | 100minutes |
| 6. | Interface between liquid and liquid phases ・Interface energy between liquid and liquid phases |
Survey on interface energy | 100minutes |
| 7. | Interface between liquid and solid phases (1) ・Wetting ・Critical surface tension of solid surface ・Young equation |
Survey on wetting | 100minutes |
| 8. | Interface between liquid and solid phases (2) ・Wetting and surface roughness ・Dynamic contact angles |
Survey on ion-plating processe | 100minutes |
| 9. | Force between surfaces, and particles (1) ・Intermolecular force ・Force between particles ・Force between surfaces |
Survey on intermolecular force | 100minutes |
| 10. | Force between surfaces, and particles (2) ・Analytical technology for forces ・van der waals force ・Interaction between surface and particles |
Survey on interaction | 100minutes |
| 11. | Adhesion and wetting phenomena ・Application examples of adhesion and wetting phenomena ・Contact angle hysteresis |
Survey on thermodynamics of surface and interfaces | 100minutes |
| 12. | Surface functionalization ・Preparation methods of corrosion resistant films ・Evaluation methods of corrosion resistant films |
Survey on corrosion resistant film | 100minutes |
| 13. | Analytical methods of surface and interfaces ・Analytical methods of surface and interfaces at micro to macro-scales |
Review of phycical chemistry for surface ans interfaces | 100minutes |
| 14. | Term-end examination and comments | Understanding of contents of the lecture by reading documents distributed | 120minutes |
| Total. | - | - | 1350minutes |
| Physical Chemistry of Surface and Interface | Total. | |
|---|---|---|
| 1. | 30% | 30% |
| 2. | 30% | 30% |
| 3. | 40% | 40% |
| Total. | 100% | - |
Final grade point will be determined by reports and term-end examination.
- Visit the office with appointment
- Monday(12:20-13:00) at Toyosu campus.
- Course that cultivates an ability for utilizing knowledge
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| N/A | N/A |
Last modified : Sun Mar 21 16:56:27 JST 2021