课程大纲
COURSE SYLLABUS
1.
课程代码/名称
Course Code/Title
CHE5042 高等材料化学 B
Advanced Materials Chemistry B
2.
课程性质
Compulsory/Elective
专业核心课
3.
课程学分/学时
Course Credit/Hours
3/48
4.
授课语言
Teaching Language
英文 English
5.
授课教师
Instructor(s)
田颜清 教授
6.
是否面向本科生开放
Open to undergraduates
or not
否
7.
先修要求
Pre-requisites
Principle of chemistry, or Fundamental of materials science
8.
教学目标
Course Objectives
随着技术创新进步的迅猛发展,尖端材料领域正成为其中的一个特别关键因素。材料必须满足一系列不同的需求,同
时市场也迫切需要种子理念,来开发多种高科技物质以支持尖端技术。先进材料化学课程通过涵盖先进合成和化学反
应、固体中的小分子、聚合物、玻璃和陶瓷、金属、半导体、超导体和纳米材料来应对当前的社会发展趋势。课程重
点将放在和电子、光子、生物医药、以及可再生能源等方面应用相关的化学。将兼顾广度和深度,运用化学方法从原
子和分子微观尺度设计和研究先进材料,力求反映当代材料化学的科技成就和前沿成果。学生将获得并增强材料化学
相关的先进专业知识,解决问题的能力,表达能力以及沟通能力,为最终将能够在自己的研究领域中具有独立领导前
沿研究和开发的能力服务。
With technological innovation progressing at a rapid pace, the field of cutting-edge materials is
becoming a particularly critical one. Materials must satisfy a host of different demands, and the
market desperately needs seed ideas that will allow it to develop numerous high-tech substances to
support cutting-edge technologies. The Advanced Materials Chemistry Course is responding to current
social trends by structuring its coursework covering advanced synthesis and reaction chemistry, small
molecules in solids, polymers, glasses and ceramics, metals, semiconductors, superconductors, and
nanomaterials. Through the class, emphasis will be given to chemistry related to materials ’
applications in electronics, photonics, biomedicine and renewable energy. Will take into account the
breadth and depth of research using chemical methods to design and investigate advanced materials from
atomic and molecular microscopic scale, sought to reflect the outcome of scientific and technological
achievements of the cutting-edge contemporary materials chemistry. Students will gain and strengthen
sophisticated expert knowledge, problem-solving ability, presentation skills, and communication skills
in materials chemistry capable of independently leading cutting-edge research and development in their
chosen field.
9.
教学方法
Teaching Methods
1.课程采用英语授课,个别难以理解的术语加入中文解释,使学生能充分理解并完全理解课程内容。The chapters
will be taught in English, for a few individual incomprehensible terms, Chinese will be added to enable
the students to fully understand the course content.
2.课程中要求学生对文献进行介绍,使学生能跟踪世界前沿的化学知识和技术在先进材料中的重要作用。The course
requires the students to introduce literature, so that students can keep track of the important role of
the world's cutting-edge knowledge and technology in chemistry on advanced materials.
3.对部分章节引入录像教学,将采用世界名家的讲课录像使学生能对某些重要反应,设计,过程,机理,以及材料的
优异性质等有达到世界前沿教学水平的了解。Videos will be introduced to some chapters. These videos will
be those of the world famous lecturers so that students can understand some important reactions,
design, process, mechanism, and excellent material properties by reaching the world cutting edge level
of teaching.
4.作业将采用灵活的方式, 约两周一次作业, 作业内容将促进学生对基础知识的掌握理解。Homework will adopt a
flexible approach, which will be about once per two weeks. The contents of the homework will facilitate
students to master the fundamentals in materials chemistry.
5.期末考试将采用闭卷形式,2 小时。Final exam will use“closed-book” style in classroom for 2 hours.
10.
教学内容
Course Contents
Section 1
Introduction to materials chemistry
Section 2
Solid-State Chemistry: Crystalline solids vs amorphous solids. Color-structure
relationship, Sol-gels, and Glasses
Section 3
Solid-State Chemistry: Crystalline solids vs amorphous solids. Color-structure
relationship, Sol-gels, and Glasses
Section 4
Metals: Metallurgy, alloys, and refractory metals
Section 5
Metals: Metallurgy, alloys, and refractory metals
Section 6
Metals: Metallurgy, alloys, and refractory metals
Section 7
Semiconducting Materials: Silicon and polymeric semiconducting materials,
devices and applications
Section 8
Semiconducting Materials: Silicon and polymeric semiconducting materials,
devices and applications
Section 9
Semiconducting Materials: Silicon and polymeric semiconducting materials,
devices and applications
Section 10
Polymers – advanced synthesis of polymers, linear and branched
geometries, thermal responsive polymers, photo-responsible polymers, pH
responsible polymers, structure-property relationships, conjugated polymers,
applications.
Section 11
Presentation
Section 12
Presentation
Section 13
Polymers – advanced synthesis of polymers, linear and branched
geometries, thermal responsive polymers, photo-responsible polymers, pH
responsible polymers, structure-property relationships, conjugated polymers,
applications.
Section 14
Polymers – advanced synthesis of polymers, linear and branched
geometries, thermal responsive polymers, photo-responsible polymers, pH
responsible polymers, structure-property relationships, conjugated polymers,
applications.
Section 15
Nanomaterials – synthesis, structures and properties, 0D, 1D, & 2D
materials; applications
Section 16
Nanomaterials – synthesis, structures and properties, 0D, 1D, & 2D
materials; applications
11.
课程考核
Course Assessment
Policy and date:
1. Quiz will be given in the class about 6 times totally.
2. Homework problems will be distributed approximately once every two weeks. Homework will generally be
issued on the middle of the week and will be due on the following weekday of next week. Unless prior
approval is obtained, late homework will be scored according to the relation:
Homework Score(tdays) = HomeworkScore(Duedate)* 2Exp(-t)
3. Exams will be “closed-book” style and will be 2 hours.
4. Course grades will be weighted as follows:
Quiz: 15%
Presentation: 20%
Homework: 35%
Final Exam: 30%
12.
教材及其它参考资料
Textbook and Supplementary Readings
There is no one text that can cover the entire field of materials chemistry. Some of the lectures will be draw
from “Materials Chemistry, 2nd Ed”, by Bradley D. Fahlman, Springer, Netherland.
For additional information, we would recommend
1: The Physics and Chemistry of Materials by Joel Gersten
2: 彭正合主编.《材料化学》.(科学出版社)
