2024 Faculty Courses School of Environment and Society Department of Transdisciplinary Science and Engineering Graduate major in Energy Science and Informatics

Advanced Photochemistry I

Academic unit or major: Graduate major in Energy Science and Informatics
Instructor(s): Atsushi Shishido / Hiroyuki Wada
Class Format: Lecture (Face-to-face)
Media-enhanced courses: -
Day of week/Period (Classrooms): 1-2 Mon
Class: -
Course Code: ESI.H420
Number of credits: 100
Course offered: 2024
Offered quarter: 1Q
Syllabus updated: Mar 14, 2025
Language: English

Syllabus

Course overview and goals

Light absorption and emission are important concept to understand photochemistry. In this course, we learn about light and its interaction with molecules. Former part of this course is about emission from high temperature, light, and chemically excited states. Inorganic materials are also described not only for organic molecules. Mechanism of laser also described in order to apply for measurements and reactions. Latter part of this course is about 'photophysical process and photochemical process', 'photochromism' and 'refractive index.'
This course is for the students without back ground of photochemistry and photo physics. Knowledge and ability acquired through this course will help students enjoy photochemisty and photophysics in the future.

Course description and aims

By the end of this course, students will have the following abilities:
1) To explain principles and applications of luminescent mechanism.
2) To explain principles of laser.
3) To explain Jablonski’s energy diagram.
4) To explain photochromism and photochromic molecules.
5) To explain relationship between molecular structure and refractive index.

Keywords

photoluminescence, thermoluminescence, chemiluminescence, laser, Jablonski’s energy diagram, photochromism, refractive index

Competencies

Specialist skills
Intercultural skills
Communication skills
Critical thinking skills
Practical and/or problem-solving skills

Class flow

At the beginning of each class, the previous lecture is reviewed. At the end of class, contents of the lecture is summarized. 'Required learning' is needed to be completed outside of the classroom for preparation and review purposes.

Course schedule/Objectives

	Course schedule	Objectives
Class 1	Photophysical process and photochemical process (Shishido)	Explain Jablonski’s energy diagram.
Class 2	Photochromism (Shishido)	Explain photochromism and photochromic molecules.
Class 3	Refractive index (Shishido)	Explain relationship between molecular structure and refractive index.
Class 4	Thermoluminescence mechanism (Wada)	Explain luminescence mechanism, Planck's law.
Class 5	Photoluminescence mechanism (Wada)	Explain phosphor, transition probability.
Class 6	Chemiluminescence mechanism, laser (Wada)	Explain excitation energy. Explain population inversion, optical resonator.
Class 7	Final examination (Wada)	Examination for the second half (Wada)

Study advice (preparation and review)

To enhance effective learning, students are encouraged to spend approximately 100 minutes preparing for class and another 100 minutes reviewing class content afterwards (including assignments) for each class.
They should do so by referring to textbooks and other course material.

Textbook(s)

N/A

Reference books, course materials, etc.

N/A

Evaluation methods and criteria

Shishido: Students will be assessed on a report (50%) and exercise problems (50%).
Wada: Students will be assessed on final exam (90%) and exercise problems (10%).

Related courses

ENR.H402 ： Advanced Ｐｈｏｔｏｃｈｅｍｉｓｔｒｙ II
ENR.H407 ： Advanced Solid State Chemistry Oriented for Energy and Environment Issues I
ENR.H410 ： Topics in Properties of Semiconductors
ENR.H414 ： Advanced Functional Polymer Materials II
ENR.H409 ： Topics in Organic Electronics
MAT.C402 ： Quantum Physics in Optical Response of Materials
ENR.L410 ： Introduction to Photovoltaics
ENR.I510 ： Optical properties of solids
CAP.T401 ： Introduction to Polymer Chemistry I
CAP.P221 ： Polymer Physics I (Polymer Solutions)

Prerequisites

N/A