Hannah Pohlit
Researcher at Department of Pharmacy; Molecular Pharmaceutics
- E-mail:
- hannah.pohlit@farmaci.uu.se
- Visiting address:
- Biomedicinskt Centrum BMC, Husargatan 3
- Postal address:
- Box 580
751 23 UPPSALA
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Biography
- 2016 - 2017 Postdoc in Polymer Chemistry, Mainz University, Germany
- 2012 - 2016, PhD in Polymer Chemistry with Prof. Holger Frey, Mainz University, Germany
- 2006 - 2012, Diploma in Biomedical Chemistry, Mainz University, Germany
Publications
Recent publications
- A perfusable multi-hydrogel vasculature on-chip engineered by 2-photon 3D printing and scaffold molding to improve microfabrication fidelity in hydrogels (2024)
- Technology platform for facile handling of 3D hydrogel cell culture scaffolds (2023)
- Confocal imaging dataset to assess endothelial cell orientation during extreme glucose conditions (2022)
- Acoustic focusing of beads and cells in hydrogel droplets (2021)
- Acoustofluidic Method to Align Polystyrene Beads and Cells in Hydrogels (2021)
All publications
Articles
- A perfusable multi-hydrogel vasculature on-chip engineered by 2-photon 3D printing and scaffold molding to improve microfabrication fidelity in hydrogels (2024)
- Technology platform for facile handling of 3D hydrogel cell culture scaffolds (2023)
- Confocal imaging dataset to assess endothelial cell orientation during extreme glucose conditions (2022)
- Acoustic focusing of beads and cells in hydrogel droplets (2021)
- Brain microvasculature endothelial cell orientation on micropatterned hydrogels is affected by glucose level variations (2021)
- Acid-Cleavable Poly(ethylene glycol) Hydrogels Displaying Protein Release at pH 5 (2020)
- A simplified approach to control cell adherence on biologically derived in vitro cell culture scaffolds by direct UV-mediated RGD linkage (2020)
- A practical guide to microfabrication and patterning of hydrogels for biomimetic cell culture scaffolds (2020)
Conferences
- Acoustofluidic Method to Align Polystyrene Beads and Cells in Hydrogels (2021)
- Evaluation of biocompatibility of acousticfocusing of cells in hydrogel droplets (2021)
- Hydrogel membrane fabricated by 2-photon polymerization in a microfluidic chip for bio-interface investigations (2020)
- Free-hanging hydrogel structures as more in vivo-like barrier model (2020)
- Alignment of brain endothelial cells on patterned hyaluronic acid hydrogels (2020)
- 2D and 3D patterning of biological hydrogels for organ-on-chip applications (2018)
- Production of hyaluronic acid-acrylamide microgels as potential cell culture scaffolds (2018)