《纳米技术和纳米材料》课程教学大纲(本科)

纳米技术和纳米材料
(Nanotechnology and Nanomaterials)
课程代码：07410121
学分：1.5
学时：24 （其中：课堂教学学时：24实验学时：0上机学时：0课程实践学时:0）先修课程：材料制备原理、无机化学、材料测试新技术
适用专业：无机非金属材料工程、冶金工程、金属材料工程、高分子材料与工程、材料成型及控制工程
教材：《Nanomaterials Chemistry》，C.N.R.Rao, WILEY-VCH Verlag Gambh & Co. KGaA, Weinheim, 2007 年一、课程性质与课程目标
（一）课程性质（需说明课程对人才培养方面的贡献）
Nanoscale science and technology is a new subject in material science and belongs to high technology field. The main tasks of this course are: （1） to introduce the history, current status and further development; （2）to introduce the preparation method, assembly method, manufacturing process and characterization technologies; （3） to introduce the nanotechnologies in various fields like environment, medicine, optics and energy. The teaching of this course is good fbr enriching students9 understanding of material and material science and fbr providing necessary knowledge, ideas and methods fbr students' further studying of nanoscience and nanotechnology.
纳米科学技术是材料学中一门新兴学科，属高新技术。

《纳米材料与纳米技术》课程是材料系的一门专业选修课。

本课程的主要任务是介绍纳米科学的历史、现状以及未来发展；介绍纳米材料的制备方法、组装方法、工艺技术和表征手段；介绍环境、医学、光学、能源领域的纳米技术。

本课程的教学可以丰富学生对材料及材料学的认识，为学生进一步从事有关纳米科技方面的研究提供必要的知识、思路和方法。

（二）课程目标（根据课程特点和对毕业要求的贡献，确定课程目标。

应包括知识目标和能力
目标。

）.知识目标
1.1To master the basic concept of nanomaterials and nanotechnology To master the physical
effects and the peculiar performance of nano-scale materials
1.2To know the preparation technology and technical principles of nanomaterials；
1.3To know the important nanotechnologies in various fields such as medicine, optics and sustainable energy; To know the application of nanotechnologies in environment protection and pollution abatement掌握纳米材料和技术的基本概念
1.1掌握纳米材料的基本物理效应和奇特性能；掌握不同维度、不同组分的纳米材料的制备方法、工艺原
理；
1.2了解医学、光学、可持续能源等领域的重要的纳米技术，了解纳米技术在环境保护和污染治理方面的
应用2.能力目标
2.1To master the ability to design the preparation methods of nanomaterials with scientific methods by learning the preparation method and technical principles of nanaterials
2.2To master the ability to evaluate the influence of nanomaterials/nanotechniques on environment by learning the nanomaterials/nanotechniques in various fields such as medicine, optics and sustainable energy sources.
2.3To train the students to master the ability of reports writing and manuscript design aiming at composite engineering problems by guiding students to investigate certain problems about nanomaterials and to write problem-solving reports.
2.4通过对纳米材料制备方法、工艺原理的学习，具备采用科学方法对纳米材料制备方法进行设计的能力
2.5通过对医学、光学、可持续能源等领域所用的纳米材料或纳米技术的学习，具备评价纳米技术或者纳米技术对环境的影响的能力
2.6引导学生围绕纳米材料领域的某一问题进行调研并撰写问题解决报告，培养学生具备针对复合工程问题进行报告撰写和文稿设计的能力
注：工程类专业通识课程的课程目标应覆盖相应的工程教育认证毕业要求通用标准;
二、课程内容与教学要求（按章撰写）
Chapter 1 Introduction
1\ Main Contents
(1)The property, research objects, methods and tasks of this course
(2)The history and the current status of nanomaterials
(3)The progress and the development trends of namomaterials
2、Basic requirements
(1)The history and the current status of nanomaterials
(2) a brief understanding of the development of nanomaterials
(3)Key point and difficult point
Chapter 2、Basic theory and peculiar performance of nanomaterials
1.Main contents
Basic physical effects
(1)Quantum size effect
(2)Small Size Effect
(3)Surface effect
(4)Quantum effect： Coulomb blockade effect
(5)Dielectric confinement effect
Peculiar performance of nanomaterials
(6)thermal performance
(7)optical performance
(8)magnetic performance
(9)mechanical performance
(10)electric performance
(11)chemical performance
(12)photocatalytic performance
2.Basic requirement
mastering of four famous effects of nanometerials ； understanding of peculiar properties of
nanomaterials
3.Key point and difficult point
Key point: physical effects of nanomaterials
Chapter 3Preparation methods for nanostructures and nanomaterials
1.Main contents
Top-Down Approach
(l)Electron Beam Lithography of Nanostructures
(2)UV Imprint Lithography for Nanoscale Manufacturing
(3)Laser fabrication for nanoscale manufacturing
Bottom-Up Approach
(l)synthesis and assemblies of semiconductor nanocrystals, metal oxide nanocrystals, metal nanocrystals.
(2)preparation of inorganic nanotubes and nanowires
(3)Nanoaqueous sol-gel routes to nanocrystalline metal oxides
2.Basic requirements
Mastering the nanostructure manufacturing method; mastering the basic synthesis method of nano-scale materials
3.Key points and difficult points
Key points:
Material-selective applicability of nanostructure manufacturing method and nanomaterial preparation method
Difficult points: During introduction of preparation method for specific nanomaterials with certain dimensions, it is necessary to refine the universal processes and parameters and address its applicability to other materials.
Chapter 4Nanotechnologies in various fields:
1.Main contents
Nanotechnology for environment
(1)Nanomaterials for Groundwater Remediation
(2)Membrane Processes
(3)Nanomaterials as Adsorbants
Nanotechnology for medicine
(l)Engineering Biocompatible Quantum Dots for Ultrasensitive,Real-Time Biological Imaging and Detection
(2)Nanoparticles targeting for drug delivery
(3)Diagnostic and Therapeutic Applications of Metal Nanoshells
Nanotechnology for optics
(l)Quantum emitters
(2)Nanoscale optical microscopy
Nanotechnology for sustainable energy
(l)Solar energy for electricity production: photovoltaic technology
(2)Hydrogen production
(3)Sustainable electricity storage
2. Basic requirements
To know the basic principle of nanotechnologies and to know the specific carrier and its specific properties of nanotechnologies in diferent fields
2. Key points and Difficult points:
Key points:
To help students to skillfully apply the main content of chapter 2 in understanding the main content of this chapter
三、学时分配及教学方法
注：.课程实践学时按相关专业培养计划列入表格；主要教学方法包括讲授法、讨论法、演示法、研究型教学方法（基于问题、项目、案例等
教学方法）等。

四、课程考核注：1,分学期设置和考核的课程应按学期分别填写上表。

2.考核形式主要包括课堂表现、平时作业、阶段测试、期中考试、期末考试、大作业、小论文、项目设计和作品等。

3.考核要求包括作业次数、考试方式（开卷、闭卷）、项目设计要求等。

4.考核权重指该考核方式或途径在总成绩中所占比重。

六、参考书目及学习资料（书名，主编，出版社，出版时间及版次）
1、《纳米材料及其制备技术》，刘漫红等，冶金工业出版社，2014年8月第一版
2、《Nanomaterials Chemistry》，C.N.R.Rao, WILEY-VCH Verlag Gambh & Co. KGaA,
Weinheim, 2007 年
3、《Handbook of nanofabrication , Gary P. Wiederrecht, Elsevier, 2010 年第一版
4、《Environmental nanotechnology》,Mark R. Wiesner • Jean-Yves Bottero,
McGraw-Hill.inc, 2007.
5、《Principles of Nano-Optics》，Lukas novotny et al., Cambridge University press, 2006
6、《Nanomedicine for Drug Delivery and Therapeutics》，Ajay Kumar Mishra, Wiley, 2013
七、大纲说明（内容可包括课程基本要求、习题要求及其它一些必要的说明）
由于纳米材料的发展速度很快，讲
课内容应结合最新研究结果及时作
适当安排
2017年9月12日。