Wykaz publikacji wybranego autora

Ewelina Cichoń, dr inż.

asystent

Faculty of Materials Science and Ceramics
WIMiC-kcmo


  • 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)



Statystyka obejmuje publikacje afiliowane AGH od 2008 roku włącznie

typ publikacji
rocznikl. publ.książkifragm.referatyartykułypatentymapyred. czas.inne
ogółem836221
2023633
202228271
202119127
20201183
2019844
2018963
201722
język publikacji
rocznikrazempolskojęzyczneanglojęzycznepozostałe języki
ogółem83479
202366
20222828
202119316
20201111
201988
201899
2017211
kraj wydania
rocznikrazempubl. krajowepubl. zagraniczne
ogółem832657
2023624
202228721
202119712
202011110
2019817
2018972
2017211
Lista Filadelfijska
rocznikrazempubl. z LFpubl. pozostałe
ogółem831568
2023633
202228127
202119415
20201138
2019835
2018918
201722
punktacja MNiSW
rocznikrazempubl. z pkt. MNiSWpubl. pozostałe
ogółem831568
2023633
202228127
202119415
20201138
2019835
2018918
201722
publikacje recenzowane
rocznikrazempubl. recenzowanepubl. nierecenzowane
ogółem833053
2023633
202228226
202119910
20201183
2019844
2018945
201722



1
  • $\beta$ tricalcium phosphate and polyhydroxyalkanoate blends composites as bone substitutes
2
  • $\beta$-TCP/PHO biocomposites for bone tissue engineering
3
  • Biodegradable tricalcium phosphate/poly(3-hydroxybutyrate) scaffolds for bone tissue regeneration
4
5
  • Biomicroconcretes containing hydroxyapatite/chitosan hybrid granules for bone tissue regeneration
6
  • Biomicroconcretes modified with gold nanoparticles and silicon
7
  • Biomicroconcretes on the basis of hybrid hydroxyapatite/chitosan granules & highly reactive $\alpha$TCP powder
8
  • Biosurfactants as foaming agents in calcium phosphate bone cements
9
  • Calcium phosphate biomicroconcrete-type bone fillers modified with coupling agent
10
  • Calcium phosphate-based biomaterials modified with silicon and a GPTMS
11
  • Chemically modified polyhydroxyoctanoate derived oligomers as matrix in calcium phosphate sponges prepared for bone tissue engineering
12
  • Citrus pectin and its influence on properties of $\alpha$-TCP - based bone cements
13
  • Citrus pectin and other polysaccharides as additives to injectable biomicroconcrete-type bone fillers
14
  • Composite scaffolds based on b tricalcium phosphate and polyhydroxyalkanoate blends for bone tissue regeneration
15
  • Composite scaffolds based on $\beta$ tricalcium phospate and bacteria-derived polyhydroxyalkanoates
16
  • Composite scaffolds based on $\beta$ tricalcium phosphate and poly(3-hydroxybutyrate) for bone tissue regeneration
17
  • Composite scaffolds based on $\beta$ tricalcium phosphate and short and medium chain length polyhydroxyalkanoates for bone tissue regeneration
18
  • Cytotoxicity studies of foamed calcium phosphate bone cements – safe concentration of selected surfactants
19
  • Development of highly porous calcium phosphate bone cements applying nonionic surface active agents
20
  • Different types of ceramic-polymer scaffolds as potential implants for bone regeneration
21
  • Effect of gold nanoparticles and silicon on the bioactivity and antibacterial properties of hydroxyapatite/chitosan/tricalcium phosphate-based biomicroconcretes
22
  • Effect of lipase immobilization process on the enzymatic synthesis of new sugar esters with potential applications in food and pharmaceutical industries
23
  • Effect of nonionic surfactants addition on calcium phosphate bone cements
24
  • Effect of surfactant addition on the properties of calcium phosphate bone cements
25
  • Evaluation of b tricalcium phosphate-based scaffold coated with polyhydroxynonanoate for bone tissue engineering application