Wykaz publikacji wybranego autora

Agata Flis, mgr inż.

doktorant

Wydział Inżynierii Materiałowej i Ceramiki
WIMiC-kbik, Katedra Biomateriałów i Kompozytów


Identyfikatory Autora

ORCID: 0000-0003-3414-091X połącz konto z ORCID

ResearcherID: brak

Scopus: 57222505639





Liczba pozycji spełniających powyższe kryteria selekcji: 22, z ogólnej liczby 22 publikacji Autora


1
  • Advancements in structure-property correlation studies of cross-linked citric acid-based elastomers from the perspective of medical application
2
  • Badania korelacji struktury i właściwości elastomerów na bazie kwasu cytrynowego
3
  • Cytocompatibility tests of poly(diol citrate) polymers in contact with adipose tissue derived stem cells for vascular tissue engineering purposes
4
  • Degradation studies of poly(diol citrates) for vascular tissue engineering purposes
5
  • Development and characterization of novel citric acid-based biomaterials for tissue engineering
6
  • Development of polyester coatings on poly(ethylene terephthalate) prostheses for vascular tissue engineering
7
  • Fluorescence assay for the determination of glutathione based on a ring-fused 2-pyridone derivative in dietary supplements
8
  • Human umbilical vein endothelial cells in cultures on novel citric acid-based biomaterials for vascular tissue engineering
9
10
  • New polymer materials based on citric acid show promising properties for manufacturing small diameter vascular grafts
11
  • Novel citric acid-based biomaterials for vascular tissue engineering – development and characterization
12
  • Novel poly(alkylene citrate)-based materials for vascular tissue engineering
13
  • Optimization of poly(diol citrates) composition for small-diameter blood vessel tissue engineering
14
  • Poly(diol citrates) as versatile biomaterials: synthesis, surface properties and cytocompatibility studies
15
  • Polyesters based on citric acid and diols with antioxidative properties as versatile materials for soft tissue engineering: studies on degradation and cytocompatibility
16
  • Polyesters based on citric acid and diols with antioxidative properties as versatile materials for soft tissue engineering: studies on degradation and cytocompatibility
17
  • Poly(hexamethylene citrate)s and poly(octamethylene citrate)s as potential substrates for blood vessel tissue engineering – degradation studies
18
  • Poly(octamethylene citrate) modified with glutathione as a promising material for vascular tissue engineering
19
  • Spectroscopy analyses of structure-property correlations in citrate-based elastomeric biomaterials
20
  • Structure-property correlation studies of cross-linked citric acid-based elastomers
21
  • The biocompatibility of novel citric acid-based biomaterials modified with D-panthenol for vascular tissue engineering
22
  • The influence of incubation media on surface properties of bioglass-polymer composites