Course title
応用生体電子工学・応用微生物学   [Applied Bioelectrochemistory / Applied Microbiology]
Course category technology speciality courses  Requirement   Credit 1 
Department   Year 34  Semester 1st 
Course type 1st  Course code 023169
Instructor(s)
一川 尚広, MORI TETSUSHI   [ICHIKAWA Takahiro, MORI Tetsushi]
Facility affiliation Faculty of Engineering Office   Email address

Course description
Classcode: ma6wx4w

In this lecture, Ichikawa will give a lecture on Applied Bioelectrochemistory in the first half, and Mori will give a lecture on Applied Microbiology in the second half.

Applied Bioelectrochemistory: Both electron transfer and ion migration are important to maintain the life. This class aims to understand the characteristics of electron and ion, and to learn several examples concerned with electrons and their migration. Furthermore, learn about characteristics such as ionic liquids and ion conducting polymers as examples of ion conductive materials. It is important to understand academic development of electrochemistry and relationship between biological reactions and industrial applications of these materials. Deeply understand the life phenomena through this class. Additionally, students are trained to have both scientific aspect and industrial approach on the energy conversion.
Applied Microbiology: Environmental microbes play an important role in controlling the balance of a given environment. In conjunction to the adaption of these microbes to the designated environment, microbes are known to evolve and attain unique genetic traits. These genetic traits are known as a crucial genetic resource for industry and pharmaceutics. However, a large majority of environmental microbes are uncultivable, hence, making it difficult for us to exploit them. In this course, we will try to understand and learn the techniques and approaches employed to manipulate these important environmental microbes.

Expected Learning
Applied Bioelectrochemistory: Aims to understand the critical difference between electron and ion, through learning electron transfers and ion transfers seen in biological systems. Aims to understand physical chemistry to confer functions of electron transfer and ion conduction. To have a wide vision to apply the knowledge to propose several applications and design of materials.
Applied Microbiology: To understand the fundamentals of microbial manipulation and to attain the necessary knowledge and know-how on isolation and cultivation of environmental microbes.
Course schedule
1: Overview of Applied Bioelectrochemistory
2: Electron and ion: Comparison of characteristics as a carrier of electron.
3:Electron transfer and ion transfer I: Learn about electron transfer reactions in living organisms, using photosynthesis as a theme.
4:Electron transfer and ion transfer II: Learn about electron transfer reactions in living organisms, using photosynthesis as a theme.
5: Self-assembled monolayer I: Learn the importance and formation mechanism of self-assembled layers formed by amphipathic molecules in understanding various biological phenomena.
6:Self-assembled monolayer II: Learn the importance and formation mechanism of self-assembled layers formed by amphipathic molecules in understanding various biological phenomena.
7: Bioelectronics: Learn about the design of devices that perform energy conversion, information conversion, etc. using biomolecules.
8: Fundamental Microbiology I
9: Fundamental Microbiology II
10: Current techniques for the isolation and detection of prokaryotes (bacteria, archaea)
11: Current techniques for the manipulation and detection of eukaryotic microbes (microalgae, fungi etc.)
12: Recent in vitro approaches for detection, isolation and manipulation of microbes
13: Recent in vivo approaches for detection, isolation and manipulation of microbes
14: The future of applied microbiology
15: Summary of Applied Bioelectrochemistory and Applied Microbiology
Prerequisites
Applied Bioelectrochemistory: Physical chemistry, Organic chemistry, Polymer chemistry, Related class: Biophysical chemistry I and II.
Applied Microbiology: Molecular Biology, Microbiology. Related class: Molecular Biology I, II and Microbiology.

Required Text(s) and Materials
Applied Bioelectrochemistory: Textbook is not specified.
Applied Microbiology: Please use the notes provided for reference
References
Assessment/Grading
Evaluate with Applied Bioelectrochemistory / Applied Microbiology = 50/50%.
Applied Bioelectrochemistory: The grade evaluation in this online class is premised on all attendances, and comprehensively evaluates the attitude to learn, quizzes, and report. Standard study time set by the our university is required to get the grade. The rate of evaluation is as follows: Normal score: 40%, quizzes and assignment test: 60%. Grade will be given according to the following criteria by comprehensive
Applied Microbiology: Similar to Applied Bioelectrochemistry

Evaluation: S: 90 points or more, A: 80 or more and less than 90 points, B: 70 or more and less than 80 points, C: 60 or more and less than 70 points.
Message from instructor(s)
From Ichikawa: Writing report make you to review the class. To make high original report which has a format needs preparation and sense. Do not copy someone’s report.
From Mori: I hope that you would gain some interest and knowledge on the manipulation or microbes
Course keywords
Applied Bioelectrochemistory: Electrochemistry, Electronic conduction, Information propagation, Bioelectrochemistry, Ionics Applied Microbiology: Molecular Biology, Microbiology, Cell analysis
Office hours
Ichikawa: After class or from 6 to 7pm on every Thursday. Mori: If send me an email, we can set a time to meet and discuss
Remarks 1
From Ichikawa: Additionally, I will answer whenever possible. Email is always available. However, I will not give a reply to such silly questions as “tell me the answer” “which book can I find the answer”, because the important thing is the action "think" always by yourself.
From Mori: None in particular.
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
Last update
3/16/2022 10:46:11 AM