Physics Department, TUM | Course 0000003477 in WS 2019/20

General Data

Course Type

lecture

Semester Weekly Hours

2 SWS

Organisational Unit

Associate Professorship of Neuroelectronics (Prof. Wolfrum)

Lecturers

Nouran Yehia Adly Hassan
Philipp Rinklin
Korkut Terkan
Lennart Weiß
Bernhard Wolfrum
Sabine Zips

Dates

Mon, 09:00–10:00

iCalendar

	Date and Time	Room and Remark
	Mon, 2020-03-02, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).
	Tue, 2020-03-03, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).
	Wed, 2020-03-04, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).
	Thu, 2020-03-05, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).
	Fri, 2020-03-06, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).
	Mon, 2020-03-09, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).
	Tue, 2020-03-10, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).
	Wed, 2020-03-11, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).
	Thu, 2020-03-12, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).
	Fri, 2020-03-13, 09:00–10:00	The lecture and lab course will be held in the rooms of the MSB in Garching. Meeting point will be in front of the Neuroelectronics office (MSB, east side, first floor; 5701.1.118).

Assignment to Modules

EI7474: Biosensors and Bioelectronics / Biosensors and Bioelectronics

Further Information

Courses are together with exams the building blocks for modules. Please keep in mind that information on the contents, learning outcomes and, especially examination conditions are given on the module level only – see section "Assignment to Modules" above.

additional remarks	The block course will start by introducing the field of biosensors including the medical and economic drivers for important applications. We will cover basic operation principles of the different biosensor classes, give the theoretical background for electrochemical and optical transduction mechanisms and introduce the types of biorecognition elements used in current sensor concepts. We will then proceed to discuss in detail major biosensor classes and architectures including application examples ranging from molecular to cell-based sensors. We will highlight disposable sensors and fabrication methods for point-of-care applications and finally address recent developments in new sensor concepts based on single-molecule techniques and stochastic sensing. Course topics (example): • Introduction to biosensors: historical developments, applications and predicted trends • Introduction to biological recognition elements for sensor concepts • Physical transduction mechanisms • Enzymatic sensor concepts and selected examples (glucose oxidase enzyme electrode) • DNA-sensors • Immunosensors • Cell-based biosensors • In-vivo biosensors • Disposable biosensors in point-of-care applications: Concepts and fabrication • Advanced biosensor methods (stochastic detection, single-molecule techniques)
Links	TUMonline entry

additional remarks

The block course will start by introducing the field of biosensors including the medical and economic drivers for important applications. We will cover basic operation principles of the different biosensor classes, give the theoretical background for electrochemical and optical transduction mechanisms and introduce the types of biorecognition elements used in current sensor concepts. We will then proceed to discuss in detail major biosensor classes and architectures including application examples ranging from molecular to cell-based sensors. We will highlight disposable sensors and fabrication methods for point-of-care applications and finally address recent developments in new sensor concepts based on single-molecule techniques and stochastic sensing. Course topics (example): • Introduction to biosensors: historical developments, applications and predicted trends • Introduction to biological recognition elements for sensor concepts • Physical transduction mechanisms • Enzymatic sensor concepts and selected examples (glucose oxidase enzyme electrode) • DNA-sensors • Immunosensors • Cell-based biosensors • In-vivo biosensors • Disposable biosensors in point-of-care applications: Concepts and fabrication • Advanced biosensor methods (stochastic detection, single-molecule techniques)

Links

TUMonline entry

Equivalent Courses (e. g. in other semesters)

Semester	Title	Lecturers	Dates
WS 2021/2	Biosensors & Bioelectronics (lecture)	Hiendlmeier, L. Rinklin, P. Weiß, L. Wolfrum, B. Zurita, F.	Mon, 09:00–10:00
WS 2020/1	Biosensors & Bioelectronics (lecture)	Hiendlmeier, L. Rinklin, P. Terkan, K. Weiß, L. Wolfrum, B. … (total 7)	Mon, 09:00–10:00
WS 2018/9	Biosensors & Bioelectronics (lecture)	Hassan, N. Rinklin, P. Terkan, K. Weiß, L. Wolfrum, B. … (total 6)	Mon, 09:00–10:00
WS 2017/8	Biosensors & Bioelectronics (lecture)
WS 2016/7	Biosensors & Bioelectronics (lecture)
WS 2015/6	Biosensors & Bioelectronics (lecture)

Biosensors & Bioelectronics (lecture)

Course 0000003477 in WS 2019/20

General Data

Assignment to Modules

Further Information

Equivalent Courses (e. g. in other semesters)