Project

Crosslinkable Hydrogels for 3D Bio-printing

Publisher

Supervisor

Location

Greater Copenhagen area

The project aim is development of new polymer systems for use in extrusion 3d printing of biological scaffolds.

Polymer synthesis will be exploited to prepare new polymers that have the possibility to crosslink during 3d printing. Depending on your background, the project can either focus on modification of known water soluble polymers or on synthesis of your own systems.

The prepared systems should be biocompatible and should ultimately allow 3d printing of contractile microstructures.

More information available on contact.

Requirements

Polymer chemistry, synthesis of polymers or knowledge of organic chemistry

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Contact

Company / Organization

DTU Kemiteknik

Name

Anders Egede Daugaard

Position

Lektor

Mail

adt@kt.dtu.dk

Supervisor info

BSc in Chemistry and Technology

Supervisor

Anders Egede Daugaard

Co-supervisors

Johan Ulrik Lind

ECTS credits

20 - 35

Type

Final project, BSc project

MSc Eng in Applied Chemistry

Supervisor

Anders Egede Daugaard

Co-supervisors

Johan Ulrik Lind

ECTS credits

20 - 35

Type

Final project, BSc project

Technical University of Denmark

For almost two centuries DTU, Technical University of Denmark, has been dedicated to fulfilling the vision of H.C. Ørsted – the father of electromagnetism – who founded the university in 1829 to develop and create value using the natural sciences and the technical sciences to benefit society.


Today, DTU is ranked as one of the foremost technical universities in Europe, continues to set new records in the number of publications, and persistently increases and develops our partnerships with industry, and assignments accomplished by DTU’s public sector consultancy.

Find us here

Anker Engelunds Vej 1
Bygning 101A
2800 Kgs. Lyngby

Denmark



Tlf. (+45) 45 25 25 25

CVR-nr. 30 06 09 46

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