Inorganic solid chemistry is a science in which the research aiming at examining the structure of the synthesized solids, together with their application, is systematically organized from the standpoint of chemistry. In order to freely design and synthesize inorganic solid substances possessing a variety of characteristics, including magnetism, ion- and electron conductivity, superconductivity and optical properties, it is very important to understand the relationship between chemical bonding and crystal structure, as well as the physical properties of the substance. In this lecture, we will deal with the electrical properties, magnetic properties, optical properties, ionic conduction properties, and energy conversion and storage properties from the point of view of material design. In the second half, we will describe device applications of energy conversion and storage materials, as well as the current situation and challenges including the latest topics.
By the end of this course, students will be able to explain the concept and acquire knowledge of materials science required to develop inorganic solid materials mainly as energy conversion and storage materials. In this lecture, in addition to the energy conversion and storage characteristics, students will comprehend the associated electrical properties, magnetic properties, and optical properties to facilitate the understanding based on the correlation of chemical bonding and crystalline structure.
inorganic solid-state chemistry, physical properties of inorganic materials, energy conversion materials
|✔ Specialist skills||Intercultural skills||Communication skills||Critical thinking skills||✔ Practical and/or problem-solving skills|
Individual topics will be lectured with slides and crystal structure models.
|Course schedule||Required learning|
|Class 1||Introduction for inorganic materials properties and applications to energy devices, Magnetic properties||Explain the importance of inorganic materials for energy devices and structual features of magnetic materials|
|Class 2||Electrical properties (electronic conductors)||Explain the mechanisms of electronic conductions in inorganic solids|
|Class 3||Electrical properties (ionic conductors and dielectrics)||Explain the mechanisms of electronic conductions in inorganic solids|
|Class 4||Optical properties||Explain absorption, reflection, and scattering in inorganic solids|
|Class 5||Applications to electrochemical energy devices (solar cells)||Explain concepts and directions of materials research for solar cells|
|Class 6||Applications to electrochemical energy devices (rechargeable batteries)||Explain concepts and directions of materials research for rechargeable batteries|
|Class 7||Applications to electrochemical energy devices (fuel cells)||Explain concepts and directions of materials research for fuel cells and capacitors|
|Class 8||Practice problems and interpretation for confirming the level of understanding||Solve practice problems by understanding of the above all lectures.|
Solid State Chemistry and Its Applications 2nd edition (A. R. West / Wiley)
Students' knowledge of crystal structure and its characterization, solid solution, and materials synthesis and their ability to apply them to problems will be assessed from reports (50%) and final exam (50%).