| 课程号 |
04831811 |
学分 |
3 |
| 英文名称 |
Flow Science at Micro/Nano Scale And Its Applications |
| 先修课程 |
高等数学、普通物理 |
| 中文简介 |
本课程主要介绍微纳尺度的流体科学及其应用。主要内容包括基础流体力学、层流、表面张力、微纳尺度标量输运、微纳流体的设计与分析方法、微纳流体的加工技术、典型的微纳流体器件及微纳流体研究展望等。通过课程,使得学生能够掌握尺度减小至微米、纳米尺度时所可能面对的一些物理、化学现象,并利用所出现的尺度效应设计开发相应的器件。 |
| 英文简介 |
This course presents an introduction to the fluidic world at the micro/nano scale. Topics include fundamental fluid mechanics, Stokes flow (very low Re flow), surface tension dominant phenomena, microscale scalar transportation, general design and analysis methods for microfluidics and nanofluidics, microfabrication for micro/nano fluidic devices, typical micro/nano fluidic devices, and prospects of microfluidics and nanofluidics. It provides a basic survey of the important physical and chemical phenomenon with governing scientific principles in the fluid flow at micro and nanoscale relevant to the micro/nano engineering designs. |
| 开课院系 |
信息科学技术学院 |
| 通选课领域 |
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| 是否属于艺术与美育 |
否 |
| 平台课性质 |
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| 平台课类型 |
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| 授课语言 |
中英双语 |
| 教材 |
微流控芯片实验室,林炳承,科学出版社,2008.04,1,9787030171603;
图解微流控芯片实验室,林炳承,科学出版社,2008.09,1,9787030227164;
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| 参考书 |
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| 教学大纲 |
使得学生掌握微纳流体器件的基本原理、设计/加工方法及在生物、化学等领域的可能应用。
PART I. INTRODUCTION
Lecture 1: What? Why? and How?
PART II. TOUCH THE FLUIDIC WORLD
Lecture 2: Solid, Liquid and Gas
Lecture 3: Mathematical Bases
Lecture 4: Π theory and Dimensionless Parameters
Lecture 5: Laminar Flow and Fluidic Engineering
PBL 1: Surface Tension
PBL 2: Flow Resistance
Homework I: Fluid mechanics & design
Quiz I
PART III: FABRICATION OF MICROFLUIDICS
Lecture 6:Traditional Microfabrication
Lecture 7: PDMS-based Microfabrication
Lecture 8: Advanced Microfluidic Fabrication Techniques
Lecture 9: Nanofabrication
Experimental Trial 1: Dry Film 1 (Basic Operation)
Experimental Trial 2: Dry Film 2 (Multilayer Dry Film)
Experimental Trial 3: PDMS I (Basic Operation)
Experimental Trial 4: PDMS 2 (Advanced PDMS Microfabrication)
PBL 3: Desktop Micro/nanofabrication
PBL 4: Materials and Micro/nanofabrication
Homework II: Fabrication
Quiz II
PART IV: MICROFLUIDICS
Lecture 10: Diffusion Activated Microfluidics
Lecture 11: Continuously Flow Microfluidics
Lecture 12: Integration of Microfluidics
Lectures 13: Digital Microfluidics
PBL 5: Microfluidics for Cell Study
PART V: NANOFLUIDICS
Lecture 14: Electrokinetics of Nanofluidics
Lecture 15: Applications of Nanofluidics
PBL 6: Nanofluidics
Homework III: Microfluidics & Nanofluidics
Quiz III
PART VI: PROSPECTS OF MICROFLUIDICS AND NANOFLUIDICS
Lecture 16: Prospection
课堂讲授为主,课程安排4次(8学时)的实验课。
Attendance to all lectures and laboratory sessions are required. Course assignments include several home-works and quizzes in the class. There will be PBL projects, but no final. The following is a breakdown of the grade among various components.
Home-work Sets 30%
Quiz Sets 30%
PBL Projects 40%
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| 教学评估 |
王玮:
学年度学期:16-17-1,课程班:微纳尺度流体科学与应用1,课程推荐得分:5.0,教师推荐得分:4.88,课程得分分数段:95-100;
学年度学期:17-18-1,课程班:微纳尺度流体科学与应用1,课程推荐得分:4.82,教师推荐得分:4.82,课程得分分数段:95-100;
学年度学期:18-19-1,课程班:微纳尺度流体科学与应用1,课程推荐得分:0.0,教师推荐得分:10.0,课程得分分数段:100-105;
学年度学期:19-20-1,课程班:微纳尺度流体科学与应用1,课程推荐得分:0.0,教师推荐得分:9.5,课程得分分数段:95-100;
学年度学期:20-21-1,课程班:微纳尺度流体科学与应用1,课程推荐得分:0.0,教师推荐得分:10.0,课程得分分数段:100-105;
学年度学期:21-22-1,课程班:微纳尺度流体科学与应用1,课程推荐得分:0.0,教师推荐得分:10.0,课程得分分数段:95-100;
学年度学期:23-24-1,课程班:微纳尺度流体科学与应用1,课程推荐得分:0.0,教师推荐得分:10.0,课程得分分数段:95-100;
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