Nanotechnology

Course title

M0209000

Nanotechnology

Course description

This course introduces foundations of nanoscience at the undergraduate level. At the beginning of the course you will be given a brief summary of the basic science needed to understand matter at the nanoscale. Afterwards, you will learn about nanofabrication and characterization methods. In this course you will also learn about various developing nanotechnologies such as bionanotechnology, nanoelectronics and nanophotonics. Introduction to nanomechanics and nanofluidics will also be given.

Purpose of class

The aim of this course is to help students understand basics of nanoscience and become familiar with emerging nanotechnologies. This course is directed to undergraduate students having interest in chemistry, materials science and electrical- and bioengineering.

Goals and objectives

	Goals and objectives	Course Outcomes
1.	The students will be able to understand the matter at the nanoscale level.	A-1
2.	The students will become familiar with the nanoscale fabrication and characterization techniques.	A-1
3.	The students will become familiar with emerging nanotechnologies such as sensors for virus detection.	A-1

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

	Exam #1	Exam #2	Quizess	Presentation	Total.
1.	10%	10%	5%	0%	25%
2.	10%	10%	10%	5%	35%
3.	10%	10%	5%	15%	40%
4.					0%
Total.	30%	30%	20%	20%	-

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Introduction to nanomaterials, nanoscience, and nanotechnology. Bulk versus nanomaterials.	Curiosity web search.	180分
1.		Quiz #1: Amazing nanotechnology example.
2.	Fabrication at the nanoscale.	Read handouts .	100分
2.	Fabrication at the nanoscale.	Quiz #2: Content of class 1	90分
3.	Nanoclusters and nanoparticles.	Read handouts	100分
3.	Nanoclusters and nanoparticles.	Quiz #3: Content of class 2	90分
4.	Self-assembled nanostructures.	Read handouts	100分
4.	Self-assembled nanostructures.	Quiz #4: Content of class 3	90分
5.	Bionanomaterials.	Read handouts	100分
5.	Bionanomaterials.	Quiz #5: Content of class 4	90分
6.	Nanotechnology for energy and health.	Read handouts	100分
6.	Nanotechnology for energy and health.	Quiz #5: Content of class 5	90分
7.	Exam #1 and discussion on solutions to the exam's problems.	Review materials of class 1-6.	300分
8.	Band gap in nanostructures. Quantum confinement.	Read handouts	100分
8.	Band gap in nanostructures. Quantum confinement.		90分
9.	Nanophotonics.	Read handouts	100分
9.	Nanophotonics.	Quiz #6 - Content of class 8	90分
10.	Charge transport and nanoelectronics.	Read handouts	100分
10.	Charge transport and nanoelectronics.	Quiz #7 - Content of class 9	90分
11.	Nanoscale characterization methods.	Read handouts	100分
11.	Nanoscale characterization methods.	Quiz #8 - Content of class 10	90分
12.	Presentation on a free subject in nanoscience and nanotechnology.	Prepare ppt presentation.	100分
12.		Quiz #9 - Content of class 11	90分
13.	Presentation on a free subject in nanoscience and nanotechnology.	Prepare ppt presentation.	100分
13.		Quiz #10 - Content of class 12	90分
14.	Exam #2 and discussion on solutions to the exam's problems.	Review materials for exam #2	300分
Total.	-	-	2870分

Goals and objectives (Other Courses)

A:Fundamental Mechanical Engineering	B:Advanced Mechanical Engineering	C:Environment and Materials Engineering	D:Chemistry and Biotechnology	E:Electrical Engineering and Robotics	G:Advanced Electronic Engineering	F:Information and Communications Engineering	L:Computer Science and Engineering	H:Urban Infrastructure and Environment

Language

English

Evaluation method and criteria

Students need at least 60% of the full score to pass this course.
Score is based on quizzes (20%), Exam #1 (30%), Exam #2 (30%), and Presentation (20%).

Feedback on exams, assignments, etc.

ways of feedback	specific contents about "Other"
The Others	Feedback is provided during office hours. Pls contact teacher in charge and make appointment.

Textbooks and reference materials

Handouts will be provided before each lecture.

[1] Shriver and Atkins" Inorganic Chemistry" 5th Edition 2010
[2] Nanostructures and Nanotechnology, 1st Edition by Douglas Natelson, Cambridge University Press 2014.
Web resources will be informed separately for each class.

Prerequisites

Students enrolling this course should have knowledge and understanding of topics taught in Basic Physics and General Chemistry A class.

Office hours and How to contact professors for questions

Contact via e-mail, the e-mail addresses to Izabela Rzeznicka: izabela[at]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

About half of the classes are 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

Last modified : Wed Mar 12 04:08:59 JST 2025