151-0638-00L  MaP Distinguished Lecture Series on Engineering with Living Materials

SemesterSpring Semester 2023
LecturersR. Katzschmann, M. Filippi, X.‑H. Qin, Z. Zhang
Periodicitytwo-yearly recurring course
Language of instructionEnglish
CommentThis course is primarily designed for MSc and doctoral students. Guests are welcome.

Former title: MaP Distinguished Lecture Series on Soft Robotics



Courses

NumberTitleHoursLecturers
151-0638-00 SMaP Distinguished Lecture Series on Engineering with Living Materials
Note: Due to holiday closings, there are three make-up classes on the following dates and times:

Tuesday, 18.04.23, 16:15-18:00, Room HG E 5
Tuesday, 02.05.23, 16:15-18:00, Room (TBD)
Tuesday, 30.05.23, 16:15-18:00, Room HG E 5
2 hrs
Mon16:15-18:00HG D 7.2 »
18.04.16:15-18:00HG E 5 »
02.05.16:15-18:00HG D 7.1 »
30.05.16:15-18:00HG E 5 »
R. Katzschmann, M. Filippi, X.‑H. Qin, Z. Zhang

Catalogue data

AbstractThis course is an interdisciplinary colloquium on the engineering of biohybrid systems and robotics. Internationally renowned speakers from academia and industry give lectures about their cutting-edge research, which highlights the state-of-the-art and frontiers in the field of engineering with living materials and biohybrids.
Learning objectiveParticipants become acquainted with the state-of-the-art and frontiers in biohybrid systems and robotics, which is a topic of global and future relevance from the field of materials and process engineering. The self-study of relevant literature and active participation in discussions following presentations by internationally renowned speakers stimulate critical thinking and allow participants to deliberately discuss challenges and opportunities with leading academics and industrial experts and to exchange ideas within an interdisciplinary community.
ContentThis course is a colloquium involving a selected mix of internationally renowned speakers from academia and industry who present their cutting-edge research in the field of engineered systems using living materials. In particular, the course will cover fundamentals of bioengineering at a multicellular level (biofabrication), as well as examples of manufacturing and application of living cells to engineered systems for medical applications and beyond. Speakers will show how to combine living cells with non-living, synthetic materials to realize bio-hybrid systems to be applied to many fields of human life, ranging from biomedicine to robotics, biosensing, ecology, and architecture. It will be shown how bio-hybrid technologies and cutting-edge engineering techniques can support cell proliferation and even enhance their cell functions. The course will cover materials and approaches for the biofabrication of living tissue, seen as a biomedical model for pathophysiological discovery research, or as transplantable grafts for tissue regeneration. Speakers will illustrate how living species can contribute to ecological approaches in town planning (such as CO2 sequestration), sensing and processor technologies enabled by connective and signaling abilities of cells, and motile systems actuated by contractile cells (bio-hybrid robots).  The main learning objective is to learn about: materials and techniques to build intelligent biological systems for future, sustainable societies; mechanisms of cell and tissue programmability; and applications in bio-robotics, communication, sensing technologies, and medical engineering.
The self-study of relevant pre-read literature provided in advance of each lecture serves as a basis for active participation in the critical discussions following each presentation.
Lecture notesSelected scientific pre-read literature (around two articles per lecture) relevant for and discussed during the lectures is posted in advance on the course web page.
Prerequisites / NoticeThis course is taught by a selection of internationally renowned speakers from academia and industry working in the field of bio-hybrid systems and robotics. This lecture series is focusing on the recent trends in engineering with living materials.

Participants should have a background in tissue engineering, material science, and/or robotics.

To obtain credits, students need to: (i) attend 80% of all lectures; (ii) submit a one-page abstract of 3 different lectures. The performance will be assessed with a "Pass/Fail" format.

On-site attendance to the lectures is preferred to foster in-person contacts. However, for lectures given by online speakers, a Zoom link to attend remotely will be provided on Moodle.
CompetenciesCompetencies
Subject-specific CompetenciesConcepts and Theoriesassessed
Techniques and Technologiesassessed
Method-specific CompetenciesAnalytical Competenciesfostered
Media and Digital Technologiesfostered
Problem-solvingfostered
Social CompetenciesCommunicationfostered
Personal CompetenciesAdaptability and Flexibilityfostered
Creative Thinkingfostered
Critical Thinkingfostered
Integrity and Work Ethicsfostered
Self-awareness and Self-reflection fostered
Self-direction and Self-management fostered

Performance assessment

Performance assessment information (valid until the course unit is held again)
Performance assessment as a semester course
ECTS credits1 credit
ExaminersR. Katzschmann, M. Filippi, X.-H. Qin, Z. Zhang
Typeungraded semester performance
Language of examinationEnglish
RepetitionRepetition only possible after re-enrolling for the course unit.
Additional information on mode of examinationTo obtain 1 ECTS, students must attend min. 80% of the lectures on the program and participate actively in the discussions.

Learning materials

No public learning materials available.
Only public learning materials are listed.

Groups

No information on groups available.

Restrictions

There are no additional restrictions for the registration.

Offered in

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Doctorate Health Sciences and TechnologyHealth Sciences and TechnologyWInformation
Doctorate Computer ScienceSubject SpecialisationWInformation
Doctorate Information Technology and Electrical EngineeringSubject SpecialisationWInformation
Doctorate Mechanical and Process EngineeringSubject SpecialisationWInformation
Doctorate Materials ScienceGeneral SubjectsWInformation
Doctorate Materials ScienceAdvanced Manufacturing (MaP Doctoral School)WInformation
Doctorate Materials ScienceSoft Materials (MaP Doctoral School)WInformation
Doctorate Materials ScienceSustainable & Bioinspired Materials (MaP Doctoral School)WInformation
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Health Sciences and Technology MasterElective Courses IIWInformation
Mechanical Engineering MasterMultidisciplinary CoursesWInformation
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Robotics, Systems and Control MasterMultidisciplinary CoursesWInformation