Hannah Pohlit
Researcher at Department of Pharmacy; Molecular Pharmaceutics; Pharmaceutical Nanotechnology
- E-mail:
- hannah.pohlit@uu.se
- Visiting address:
- Biomedicinskt Centrum BMC, Husargatan 3
- Postal address:
- Box 580
751 23 UPPSALA
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
Part of Advanced Materials Technologies, 2024
- DOI for A perfusable multi-hydrogel vasculature on-chip engineered by 2-photon 3D printing and scaffold molding to improve microfabrication fidelity in hydrogels
- Download full text (pdf) of A perfusable multi-hydrogel vasculature on-chip engineered by 2-photon 3D printing and scaffold molding to improve microfabrication fidelity in hydrogels
Technology platform for facile handling of 3D hydrogel cell culture scaffolds
Part of Scientific Reports, 2023
- DOI for Technology platform for facile handling of 3D hydrogel cell culture scaffolds
- Download full text (pdf) of Technology platform for facile handling of 3D hydrogel cell culture scaffolds
Confocal imaging dataset to assess endothelial cell orientation during extreme glucose conditions
Part of Scientific Data, 2022
- DOI for Confocal imaging dataset to assess endothelial cell orientation during extreme glucose conditions
- Download full text (pdf) of Confocal imaging dataset to assess endothelial cell orientation during extreme glucose conditions
Part of Scientific Reports, 2021
- DOI for Brain microvasculature endothelial cell orientation on micropatterned hydrogels is affected by glucose level variations
- Download full text (pdf) of Brain microvasculature endothelial cell orientation on micropatterned hydrogels is affected by glucose level variations
Evaluation of biocompatibility of acousticfocusing of cells in hydrogel droplets
2021
All publications
Articles in journal
Part of Advanced Materials Technologies, 2024
- DOI for A perfusable multi-hydrogel vasculature on-chip engineered by 2-photon 3D printing and scaffold molding to improve microfabrication fidelity in hydrogels
- Download full text (pdf) of A perfusable multi-hydrogel vasculature on-chip engineered by 2-photon 3D printing and scaffold molding to improve microfabrication fidelity in hydrogels
Technology platform for facile handling of 3D hydrogel cell culture scaffolds
Part of Scientific Reports, 2023
- DOI for Technology platform for facile handling of 3D hydrogel cell culture scaffolds
- Download full text (pdf) of Technology platform for facile handling of 3D hydrogel cell culture scaffolds
Confocal imaging dataset to assess endothelial cell orientation during extreme glucose conditions
Part of Scientific Data, 2022
- DOI for Confocal imaging dataset to assess endothelial cell orientation during extreme glucose conditions
- Download full text (pdf) of Confocal imaging dataset to assess endothelial cell orientation during extreme glucose conditions
Part of Scientific Reports, 2021
- DOI for Brain microvasculature endothelial cell orientation on micropatterned hydrogels is affected by glucose level variations
- Download full text (pdf) of Brain microvasculature endothelial cell orientation on micropatterned hydrogels is affected by glucose level variations
Acoustic focusing of beads and cells in hydrogel droplets
Part of Scientific Reports, 2021
- DOI for Acoustic focusing of beads and cells in hydrogel droplets
- Download full text (pdf) of Acoustic focusing of beads and cells in hydrogel droplets
Acid-Cleavable Poly(ethylene glycol) Hydrogels Displaying Protein Release at pH 5
Part of Chemistry - A European Journal, p. 2947-2953, 2020
- DOI for Acid-Cleavable Poly(ethylene glycol) Hydrogels Displaying Protein Release at pH 5
- Download full text (pdf) of Acid-Cleavable Poly(ethylene glycol) Hydrogels Displaying Protein Release at pH 5
Part of Journal of materials science. Materials in medicine, 2020
- DOI for A simplified approach to control cell adherence on biologically derived in vitro cell culture scaffolds by direct UV-mediated RGD linkage
- Download full text (pdf) of A simplified approach to control cell adherence on biologically derived in vitro cell culture scaffolds by direct UV-mediated RGD linkage
Articles, review/survey
Conference papers
Evaluation of biocompatibility of acousticfocusing of cells in hydrogel droplets
2021
Acoustofluidic Method to Align Polystyrene Beads and Cells in Hydrogels
2021
Alignment of brain endothelial cells on patterned hyaluronic acid hydrogels
2020
Free-hanging hydrogel structures as more in vivo-like barrier model
2020
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
Part of Micronano System Workshop, May 13-15, 2018, p. 24-24, 2018