Wykaz publikacji wybranego autora

Ewelina Cichoń, dr inż.

asystent

Wydział Inżynierii Materiałowej i Ceramiki
WIMiC-kcmo, Katedra Ceramiki i Materiałów Ogniotrwałych


  • 2022

    [dyscyplina 1] dziedzina nauk inżynieryjno-technicznych / inżynieria materiałowa

    [dyscyplina 2] dziedzina nauk inżynieryjno-technicznych / inżynieria biomedyczna (50%)


Identyfikatory Autora Informacje o Autorze w systemach zewnętrznych

ORCID: 0000-0003-3799-8495 orcid iD

ResearcherID: O-4001-2019

Scopus: 57194474536

PBN: 62d768a87523404805751ed3

OPI Nauka Polska

System Informacyjny AGH (SkOs)




1
  • $\beta$ tricalcium phosphate and polyhydroxyalkanoate blends composites as bone substitutes
2
  • Biomicroconcretes containing hydroxyapatite/chitosan hybrid granules for bone tissue regeneration
3
  • Biomicroconcretes modified with gold nanoparticles and silicon
4
  • Calcium phosphate biomicroconcrete-type bone fillers modified with coupling agent
5
  • Calcium phosphate-based biomaterials modified with silicon and a GPTMS
6
  • Composite scaffolds based on b tricalcium phosphate and polyhydroxyalkanoate blends for bone tissue regeneration
7
  • Composite scaffolds based on $\beta$ tricalcium phosphate and poly(3-hydroxybutyrate) for bone tissue regeneration
8
  • Composite scaffolds based on $\beta$ tricalcium phosphate and short and medium chain length polyhydroxyalkanoates for bone tissue regeneration
9
  • Evaluation of b tricalcium phosphate-based scaffold coated with polyhydroxynonanoate for bone tissue engineering application
10
  • Fabrication and characterization of tricalcium phosphate (TCP) scaffolds using the foam replica method
11
  • Foamed calcium phosphate bone cements with biosurfactants – cytotoxicity studies
12
  • How liquid phase composition affects on properties of calcium phosphate biomicroconcretes based on $\alpha -TCP$?
13
  • How thermal degradation of the polymeric matrix influence the phase composition of bioceramic scaffolds?
14
  • Influence of ceramic slurry composition on the physicochemical properties of bioceramic scaffolds
15
  • Influence of tetraethoxysilane (TEOS) on physicochemical properties of $\alpha$-tricalcium phosphate-based injectable bone substitutes
16
  • Influence of tetraethoxysilane (TEOS) on the properties of calcium phosphates based biomicroconcrete-type biomaterials
17
  • Influence of various liquid phases on properties of $\alpha$-TCP based bioactive bone cements
18
  • Large scale synthesis of polyhydroxybutyrate [P(3HB)], preparation and thermal characterization of UV-aged P(3HB)/$\beta$-tricalcium phosphate composites
19
  • Multidoped tricalcium phosphate/polyhydroxynonanoate-based bone substitutes
20
  • Scaffolds based on tricalcium phosphate and bacteria-derived polyhydroxyoctanoate - cytocompatibility studies
21
  • Short and medium chain length polyhydroxyalkanoates as coatings of $\beta$ tricalcium phosphate scaffolds for bone tissue regeneration
22
  • Silver decorated $\beta$-TCP scaffolds for bone tissue regeneration
23
  • Synthesis and biological characterization of 3D polyhydroxybutyrate-tricalcium phosphate scaffolds
24
  • Synthesis and physicochemical characterization of silver modified tricalcium phosphate $Ag-\beta TCP$ and $Ag-\beta TCP/poly(3-hydroxybutyrate)$ scaffolds for bone tissue regeneration
25
  • Tailoring the physicochemical properties of inorganic and hybrid calcium phosphatebased granules by etching treatment