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Organization >> University Administration >> Service Centres >> Studying and International Affairs >> International affairs (International Center) >> Division Study abroad advising and coordination ERASMUS-program >>
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mawi973-01a: Wearable and Implantable Biosensing Technologies (WeIBT) (080240) [Import]- Lecturers
- Prof. Dr. Zeynep Altintas, Dr. Md Sharifuzzaman
- Details
- Lecture, 1 cred.h, ECTS studies, ECTS credits: 5
presence event, suitable for ERASMUS-/exchange students, language of lecture is English
Time and place: Mon 10:15 - 11:00, KS2/Geb.F - SR-I
from 13.4.2025 to 13.7.2025
Comments on time and place: link preview: https://uni-kiel.zoom-x.de/j/65897936270?pwd=ampWUzMrbHgxS0xnZUhMZExDRWcwZz09
- Fields of study
- WPFL MatSci-MA ab 1 (ECTS-Credits: 5)
WPFL WiIng-MaWi-MA ab 1 (ECTS-Credits: 5)
- Prerequisites / Organisational information
- This course is appropriate for B.Sc. and M.Sc. students of the Materials Science, Electronic and Electrical Engineering Technology, and Chemistry. Although the participation to this course does not require any specific prerequisite or capacity testing, the B.Sc. students are expected to be at a senior level (i.e. starting as of summer semester of the second year).
- Contents
- The students have knowledge about wearable biosensor technology, the classification of wearable sensors and their performance parameters. They know advanced transducing nanomaterials for wearable sensors and noninvasive wearable biosensors like sweat- development of skin patch for glucose and lactate monitoring. They have knowledge about the development of wearable hybrid patch and of multifunctional and breathable physiological biosensors.
• Discuss the motivation, merits, and challenges in the field of wearable (bio)sensing technologies
• Describe the definition of wearable (bio)sensors, components, and their classification
• Describe the performance parameters of wearable (bio)sensors
• Describe the principle of all major wearable bio(sensor) types
• Describe the transducing nanomaterials and their characterization methods for wearable sensors
• Biorecognition elements for wearable (bio)sensors
• Describe signal detection techniques for every wearable sensor.
• Describe the applications of the introduced wearable sensor systems for biomedical applications
- Recommended literature
- • Z. Altintas (2018). Biosensors and Nanotechnology -Applications in Health Care Diagnostics. John Wiley & Sons Press. Print ISBN: 9781119065012, Electronic ISBN: 9781119-065173
• Z. Altintas and A. Barhoum (2023). Fundamentals of Sensor Technology. Elsevier. Print ISBN: 9780323884310, Electronic ISBN: 9780323884327.
• Z. Altintas and A. Barhoum (2023). Advanced Sensing Technology. Elsevier. Print ISBN: 9780323902229, Electronic ISBN: 9780323902236.
Amay J. Bandodkar, Itthipon Jeerapan, and Joseph Wang. ACS Sens. 2016, 1, 464−482. Wearable Chemical Sensors: Present Challenges and Future
Prospects
• M Sharifuzzaman, MA Zahed, MS Reza, M Asaduzzaman, SH Jeong, ...
Adv. Funct. Mater.2023, 33, 2208894. MXene/Fluoropolymer‐Derived Laser‐Carbonaceous All‐Fibrous Nanohybrid Patch for Soft Wearable Bioelectronics.
- Additional information
- Expected participants: 15
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