Home
Research
Bioactive Inorganic Scaffolds
Mechanical reinforcement of mineral bone cements
Additive manufacturing of bone scaffolds
Implant surface modification
Biofabrication
Melt Electrowriting
Bioink Synthesis and Development
Bioprinting
Biology
Quantitative assessment of Cell-Material and Cell-Cell Interaction
Co-culture systems of primary human cells
Examination of the human immune response by biomaterial
Vascularization & 3D-Tissue Perfusion
Hierarchical Systems
Cryo-structuring
Solution Electrospinning
Materials for specific Approaches
NanoBio-Technology
Nanogels
Inorganic Nanoparticles
Colleagues
Publications
Institute
Infrastructure
Research Equipment
History
About Würzburg
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Teaching
Master´s degree in Biofabrication
Materials for Future: Funktionswerkstoffe
Training in Communication and Leading
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ZEIT Campus, January 2021
Home
Research
Bioactive Inorganic Scaffolds
Mechanical reinforcement of mineral bone cements
Additive manufacturing of bone scaffolds
Implant surface modification
Biofabrication
Melt Electrowriting
Bioink Synthesis and Development
Bioprinting
Biology
Quantitative assessment of Cell-Material and Cell-Cell Interaction
Co-culture systems of primary human cells
Examination of the human immune response by biomaterial
Vascularization & 3D-Tissue Perfusion
Hierarchical Systems
Cryo-structuring
Solution Electrospinning
Materials for specific Approaches
NanoBio-Technology
Nanogels
Inorganic Nanoparticles
Colleagues
Publications
Institute
Infrastructure
Research Equipment
History
About Würzburg
Travel Info
Teaching
Master´s degree in Biofabrication
Materials for Future: Funktionswerkstoffe
Training in Communication and Leading
News
Jobs
Links
