Course title
3M8221001
Advanced Organic Electronic Materials Chemistry

 GARY JAMES RICHARDS
Course content
This course introduces the student to the fascinating and diverse topic of Organic Electronic Materials from the perspective of the chemist. We will cover some basic device physics and principles of operation of organic electronic devices such as Organic Light Emitting Displays (OLEDs) and Organic Photovoltaics (OPVs), but as a course aimed at chemistry students, more focus will be given to the types of compounds used in organic electronics, tuning their properties, their synthesis and purification.
Purpose of class
This class aims to prepare chemistry students to pursue research and development in the field of Organic Electronic Materials. Students will learn about the kinds of compounds used in organic electronics, how to tune their properties through molecular design and the kind of reactions used in their synthesis. Students will also gain an understanding of the basic principles of operation of some important organic electronics technologies such as OLEDs and OPVs.
Goals and objectives
  1. Understand the basic principles of operation behind some important organic electronics technologies such as OLEDs and OPVs.
  2. Learn how to tune the properties of organic electronic materials, for example, how to increase solubility, how to tune electronic properties and so on through molecular design.
  3. Learn about some of the reactions used in the synthesis of organic electronic materials and techniques used for their purification.
Language
English
Class schedule

 Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. Introduction to Organic Electronic Materials. What are they? History. Difference between inorganic (conventional electronics). Reading Assignment: sections of chapter 1. Organic Electronics: Foundations to Applications. 200minutes
2. Quiz. Optical properties of Organic electronic materials. Reading Assignment: sections of chapter 1. Organic Electronics: Foundations to Applications. 200minutes
3. Quiz. Introduction to Organic Light Emitting Displays. Reading Assignment: sections of chapter 6. Organic Electronics: Foundations to Applications. 200minutes
4. Quiz. Introduction to Organic Photovoltaics. Reading Assignment: sections of chapter 7. Organic Electronics: Foundations to Applications. 200minutes
5. Quiz. Changing Material Properties 1. Reading Assignment: sections of chapter 2. Synthetic Methods in Organic Electronic and Photonic Materials: A Practical Guide. 200minutes
6. Quiz. Changing Material Properties 2. Reading Assignment: sections of chapter 2. Synthetic Methods in Organic Electronic and Photonic Materials: A Practical Guide. 200minutes
7. Mid Term Examination. Answers and discussion. Review what you have learned. 200minutes
8. Quiz. Donors. Reading Assignment: sections of chapter 3. Synthetic Methods in Organic Electronic and Photonic Materials: A Practical Guide. 200minutes
9. Quiz. Creating Conjugation 1. Functionalization and Alkenes. Reading Assignment: sections of chapter 4. Synthetic Methods in Organic Electronic and Photonic Materials: A Practical Guide. 200minutes
10. Quiz. Creating Conjugation 2. Organometallic Coupling. Reading Assignment: sections of chapter 5. Synthetic Methods in Organic Electronic and Photonic Materials: A Practical Guide. 200minutes
11. Quiz. Acceptors. Reading Assignment: sections of chapter 6. Synthetic Methods in Organic Electronic and Photonic Materials: A Practical Guide. 200minutes
12. Quiz. Polymerization. Reading Assignment: sections of chapter 7. Synthetic Methods in Organic Electronic and Photonic Materials: A Practical Guide. 200minutes
13. Quiz. Purification of and processing of Organic Electronic Materials Reading Assignment: sections of chapter 5. Organic Electronics: Foundations to Applications. 200minutes
14. Final Examination Review what you have learned 200minutes
Total. - - 2800minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

 Quiz and Discussion Mid Term Exam Final Exam Total.
1. 3% 20% 16% 39%
2. 6% 10% 17% 33%
3. 6% 5% 17% 28%
Total. 15% 35% 50% -
Evaluation method and criteria
Weekly quiz and discussion reviewing previous weeks lecture and reading assignments will account for 15%. Mid-term exam 35% and final exam 50%
Textbooks and reference materials
Synthetic Methods in Organic Electronic and Photonic Materials: A Practical Guide
Timothy C Parker; Seth R Marder. Royal Society of Chemistry

ORGANIC ELECTRONICS: FOUNDATIONS TO APPLICATIONS
Stephen Forrest. Oxford University Press
Prerequisites
Students should have knowledge of organic chemistry and understand the basics about organic synthesis and organic reaction mechanisms.
Office hours and How to contact professors for questions
  • Office hours 10.00am-6pm. Rm 4507-3.
    Prefer to discuss immediately after lecture in person or via email
    richards@shibaura-it.ac.jp
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates an ability for utilizing knowledge
  • Course that cultivates a basic problem-solving skills
Active-learning course
More than one class is interactive
Course by professor with work experience
Work experience Work experience and relevance to the course content if applicable
N/A N/A
Education related SDGs:the Sustainable Development Goals
  • 7.AFFORDABLE AND CLEAN ENERGY
  • 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
  • 11.SUSTAINABLE CITIES AND COMMUNITIES
  • 13.CLIMATE ACTION
Last modified : Fri May 27 04:14:33 JST 2022