Polymer Chemistry

Course title

D0033000

Polymer Chemistry

Middle-level Diploma Policy (mDP)

Program / Major	mDP	Goals	Courses
Fundamental Mechanical Engineering	F	産業界や社会の要請を把握して解決するべき課題を設定し、さまざまな工学分野の知識を関連付けながら設計生産技術を活用することで、立案した構想に従って研究を進め課題を解決することができる。	Sub
Advanced Mechanical Engineering	F	産業界や社会の要請を把握して解決するべき課題を設定し、機械工学の学理を応用して異分野を含む融合分野で革新的な機能を創成することができる。	Sub
Chemistry and Biotechnology	A	確かな基礎と物質化学の専門知識に基づいて問題を解決することができる。	Main
Electrical Engineering and Robotics	D	電気工学や関連する工学の技術分野を課題に適用し、社会の要求を解決するために応用することができる。	Sub
Advanced Electronic Engineering	E	専門的デザイン課題について解決する能力を身に付けることができる。	Sub
Information and Communications Engineering	F	社会のニーズに対して技術課題を主体的に発見し、工学分野における分野横断的な知識も活用しつつ、計画的・継続的に取り組んで課題を達成することができる。	Sub
Computer Science and Engineering	G	技術的課題に対してさまざまな工学分野の知識を関連付けながら主体的に取り組み、継続的に学修する能力を身に付けることができる。	Sub
Urban Infrastructure and Environment	G	⼟⽊⼯学における現実の問題について、⼯学・専⾨基礎知識を⽤いて理解・解決することができる。	Sub

Purpose of class

Studying about basic reactions of polymer synthesis: radical polymerization, cationic polymerization, anionic polymerization, coordination polymerization, condensation polymerization, addition polymerization, addition-condensation polymerization, ring-opening polymerization, group transfer polymerization.
Studying about basic polymer reactions: degradation, functionalization.
Studying about basic of polymer structure, physics, properties, high performance polymers, highly-functionalized polymers, and processing of polymers.

Course description

Large amount of polymer martials are widely used nowadays. The polymer is one of the indispensable materials for our life. High performance and highly functionalized the polymer materials should be necessary for application in high technology industry. Furthermore, environmental harmonization of the polymer materials should be required. Polymers show physical and chemical features, which are not observed in low molecular weight materials, derived from their large molecular weight. The structure and properties of the polymers are closely related to each other. It must be necessary to study both the contents overall to handle the polymer materials.
In this lecture, we study about basics of polymer synthesis and features of various polymerization methods, which should be usable for development of new polymer materials. We also study primary structure, higher-order structure of molecular assembly, mechanical properties, and physical properties, which should be usable for design of polymer materials.

Goals and objectives

Learning about chian polymerizations (Lectures 1-3)
Learning about sequential polymerizations (Lecture 4)
Learning about other polymerizations (Lectures 5 ＆ 6)
Learning about structure (solution, molecule, solid) of polymers (Lectures 8-10)
Learning about physics of polymers (Lectures 11-13)

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Midterm examination	Term examination	Total.
1.	20%		20%
2.	20%		20%
3.	10%		10%
4.		25%	25%
5.		25%	25%
Total.	50%	50%	-

Evaluation method and criteria

Objectives 1, 2 and 3 are evaluated by the midterm examination. Objectives 4 and 5 are evaluated by the term examination.
Passing grade is more than 60% (exercise level) of total scores (midterm examination (50%) + term examination (50%). You have the exercise of previous lecture at the bagging of every lecture. More than 2/3 of attendances should be necessary to be accepted the term report.

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Introduction of polymer synthesis Molecular weight and molecular weight distribution Radical polymerization (1): Initiators for radical polymerization, Basic reactions of radical polymerization	Look over Section 2 P36〜P49、P59〜P60 of the text book.	90minutes
		Look over Section 3 P109〜P110 of the text book.	90minutes
		Reconfirmation of the exercise in Lecture 1.	20minutes
2.	Radical polymerization (2): Kinetic study of radical polymerization Radical copolymerization, monomer reaction ratio	Look over Section 2 P49〜P50 of the text book.	90minutes
		Look over Section 2 P51〜P56 of the text book.	90minutes
		Reconfirmation of the exercise in Lecture 2.	20minutes
3.	Ionic polymerization Cationic polymerization: Features of cationic polymerization, Initiators and monomers, Basic reactions of cationic polymerization Anionic polymerization: Features of anionic polymerization, Initiators and monomers, Basic reactions of anionic polymerization Coordination polymerization: Ziegler-Natta catalyst, Metallocene catalyst, Stereo specific polymerization, Methathesis polymerization	Look over Section 2 P69〜P74 of the text book.	80minutes
		Look over Section 2 P64〜P69 of the text book.	80minutes
		Look over Section 2 P76〜P80 of the text book. Reconfirmation of the exercise in Lecture 3.	40minutes
4.	Condensation polymerization: Features of condensation polymerization, Kinetics Polymers synthesized by condensation polymerization	Look over Section 2 P20, P29〜P33 of the text book.	90minutes
		Look over Section 2 P22〜P28, P33〜P36 of the text book.	90minutes
		Reconfirmation of the exercise in Lecture 4.	20minutes
5.	Other polymerization reactions: Addition polymerization, Addition-condensation polymerization Ring opening polymerization, Group transfer polymerization	Look over Section 2 P80〜P85 of the text book.	90minutes
		Look over Section 2 P74〜P75 of the text book.	90minutes
		Reconfirmation of the exercise in Lecture 5.	20minutes
6.	Polymer reaction Functionalization of polymer, Degradation of polymer Bio polymer	Look over Section 2 P57, P86〜P91 of the text book.	90minutes
		Look over Section 2 P248〜P255 of the text book.	90minutes
		Reconfirmation of the exercise in Lecture 6.	20minutes
7.	Midterm examination	Review the contents of Lectures 1-6.	180minutes
7.	Midterm examination	Reconfirmation of answers of the midterm report.	20minutes
8.	Introduction of polymer structure ＆ property Polymer structure and solution property (1): Features of isolated polymer chain Diluted solution Solution of ionic polymers	Look over Section 3 P93〜P109 of the text book.	90minutes
		Look over Section 3 P108〜P144 of the text book.	90minutes
		Reconfirmation of the exercise in Lecture 8.	20minutes
9.	Polymer structure and solution property (2): Chemical structure of polymers	Look over Section 3 P93〜P100 of the text book.	180minutes
9.		Reconfirmation of the exercise in Lecture 9.	20minutes
10.	Solid structure of polymer: Structure of molecular assembly Amorphous structure Crystalline structure Liquid crystalline polymer	Look over Section 4 P149〜P167 of the text book.	180minutes
10.		Reconfirmation of the exercise in Lecture 10.	20minutes
11.	Mechanical properties of polymers Viscoelasticity Viscoelastic model Rubber elasticity Flow of polymer	Look over Section 4 P176〜P187 of the text book.	180minutes
11.		Reconfirmation of the exercise in Lecture 11.	20minutes
12.	Physical properties of polymers Thermal property Electrical property Optical property	Look over Section 4 P187〜P197 of the text book.	180minutes
12.		Reconfirmation of the exercise in Lecture 12.	20minutes
13.	High performance polymers Highly-functionalized polymers Processing of polymers	Look over Section 4 P197〜P255 of the text book.	180minutes
13.		Reconfirmation of the exercise in Lecture 13.	20minutes
14.	Term examination	Review the contents of Lectures 8-13.	180minutes
14.	Term examination	Reconfirmation of answers of the term report.	20minutes
Total.	-	-	2800minutes

Feedback on exams, assignments, etc.

ways of feedback	specific contents about "Other"
Feedback in the class

Textbooks and reference materials

Shin-Kobunshi Kagaku Jhoron (Kagaku Dojin, Higashimura et al.)

Prerequisites

I recommend you to have studied about organic chemistry.

Office hours and How to contact professors for questions

9:00-19:30, make an appointment via e-mail in advance.

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates a basic problem-solving skills

Active-learning course

N/A

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicable
Applicable	I will precisely explain the relevance between the contents of the lecture and industry with specific examples based on my work experience of polymer chemistry.

Education related SDGs:the Sustainable Development Goals

9.INDUSTRY, INNOVATION AND INFRASTRUCTURE

Last modified : Sat Mar 14 13:43:22 JST 2026