Browse IS/STAG - Portál UTB

Skip to page content
Website UTB
Portal title page UTB
Anonymous user Login Česky
Browse IS/STAG
Login Česky
  • Welcome
  • Browse IS/STAG
  • Applicant
  • Graduate
  • Web services
  • ECTS
  • User Info
Welcome
Browse IS/STAG
Information for applicantsElectronic applicationECTS arrivals
Getting startedAlumni ClubAbsolvent - website
Web services
ECTS
User Info

1st level navigation

  • Welcome
  • Browse IS/STAG
  • Applicant
  • Graduate
  • Web services
  • ECTS
  • User Info
User disconnected from the portal due to long time of inactivity.
Please, click this link to log back in.
(Sessions are disconnected after 240 minutes of inactivity. Note that mobile devices may get disconnected even sooner).

Prohlížení IS/STAG (S025)

Help

Main menu for Browse IS/STAG

  • Programmes and specializations.
  • Courses
  • Departments
  • Lecturers
  • Students
  • Examination dates
  • Timetable events
  • Theses, selected item
  • Pre-regist. study groups
  • Rooms
  • Rooms – all year
  • Free rooms – Semester
  • Free rooms – Year
  • Capstone project
  • Times overlap
  •  
  • Title page
  • Calendar
  • Help

Search for a Thesis

Print/export:  Bookmark this link in your browser so that you may quickly load this IS/STAG page in the future.
Only logged-in user will see student personal numbers.

Dates found, count: 1

Search result paging

Found 1 records Print Export to xls List URL
  Surname Name Title Thesis status   Supervisors Reviewers Type of thesis Date of def. Title
Student Type of thesis - - - - - - - - - -
Item shown in detail Özaltin Includes the selected person into the timetable overlap calculation. Kadir Bioactive polymer surfaces based on polyethylene Bioactive polymer surfaces based on polyethylene Thesis finished and defended successfully (DUO).   Sáha Petr Hausnerová Berenika, Špitálský Zdenko, Sťahel Pavel Doctoral thesis 1480460400000 30.11.2016 Bioactive polymer surfaces based on polyethylene Thesis finished and defended successfully (DUO).
Kadir Özaltin Doctoral thesis 0XX 0XX 0XX 0XX 0XX 0XX 0XX 0XX 0XX 0XX

Thesis info Bioaktivní polymerní povrchy na bázi polyethylenu

  • Basic data
The document you are accessing is protected by copyright law. Unauthorised use may lead to criminal sanctions.
Name Özaltin Kadir Includes the selected person into the timetable overlap calculation.
Acad. Yr. 2012/2013
Assigning department TCPM
Date of defence Nov 30, 2016
Type of thesis Doctoral thesis
Thesis status Thesis finished and defended successfully (DUO). Thesis finished and defended successfully (DUO).
Completeness of mandatory entries - All mandatory fields for this Thesis are filled in.
Main topic Bioactive polymer surfaces based on polyethylene
Main topic in English Bioactive polymer surfaces based on polyethylene
Title according to student Bioaktivní polymerní povrchy na bázi polyethylenu
English title as given by the student Bioactive polymer surfaces based on polyethylene
Parallel name Bioaktivní polymerní povrchy na bázi polyethylenu
Subtitle -
Thesis supervisor Sáha Petr, prof. Ing. CSc.
External examiner Hausnerová Berenika, prof. Ing. Ph.D., Sťahel Pavel, doc. Mgr. Ph.D., Špitálský Zdenko, Mgr. Ph.D.
Annotation Polymerní biomateriály jsou široce používány vedle kovů, keramiky a kompozitmích biomateriálů pro jejich jednoduchou zpracovatelnost, nízké náklady a vhodné fyzikální a chemické vlastnosti. Přes to, jejich povrchové vlastnosti nejsou na optimální úrovni. V důsledku toho hraje povrchová úprava polymerních materiálů podstatnou roli při jejich zpracování. Vedle opracování plamenem, UV ozařováním a leptáním mokrou cestou pomocí silných kyselin je nejvýhodnější metodou povrchová modifikace v plazmatu jak z ekonomického hlediska, tak i z hlediska ekologické šetrnosti. Další zpracování takto modifikovaných materiálů vede k tvorbě vrstvy bioaktivního a inteligentního materiálu, který vhodným způsobem interaguje s buňkami.
Annotation in English Polymeric biomaterials are widely used besides metals, ceramics and composite biomaterials due to their easy processability, low cost and favourable physical and chemical properties. However, their surface properties does not often meet optimal level. Due to this fact, the surface modification of polymer materials used as a medical devices is of a paramount importance during the processing. Such modification can be done via several available methods. Besides flame treatment, UV irradiation and wet chemical etching by strong acids, the most advantageous method is plasma surface modification both from economical point of view and is environmental friendly. Further processing of such modified material leads to the creation of layer with bioactive and intelligent properties in terms of the interaction between the synthesized biomaterial and cells.
Keywords Biomateriály, polyethylen, plazmová úprava, Bioaktivní úprava.
Keywords in English Biomaterials, Polyethylene, plasma treatment, bioactive surface.
Length of the covering note 103
Language AN
Annotation
Polymerní biomateriály jsou široce používány vedle kovů, keramiky a kompozitmích biomateriálů pro jejich jednoduchou zpracovatelnost, nízké náklady a vhodné fyzikální a chemické vlastnosti. Přes to, jejich povrchové vlastnosti nejsou na optimální úrovni. V důsledku toho hraje povrchová úprava polymerních materiálů podstatnou roli při jejich zpracování. Vedle opracování plamenem, UV ozařováním a leptáním mokrou cestou pomocí silných kyselin je nejvýhodnější metodou povrchová modifikace v plazmatu jak z ekonomického hlediska, tak i z hlediska ekologické šetrnosti. Další zpracování takto modifikovaných materiálů vede k tvorbě vrstvy bioaktivního a inteligentního materiálu, který vhodným způsobem interaguje s buňkami.
Annotation in English
Polymeric biomaterials are widely used besides metals, ceramics and composite biomaterials due to their easy processability, low cost and favourable physical and chemical properties. However, their surface properties does not often meet optimal level. Due to this fact, the surface modification of polymer materials used as a medical devices is of a paramount importance during the processing. Such modification can be done via several available methods. Besides flame treatment, UV irradiation and wet chemical etching by strong acids, the most advantageous method is plasma surface modification both from economical point of view and is environmental friendly. Further processing of such modified material leads to the creation of layer with bioactive and intelligent properties in terms of the interaction between the synthesized biomaterial and cells.
Keywords
Biomateriály, polyethylen, plazmová úprava, Bioaktivní úprava.
Keywords in English
Biomaterials, Polyethylene, plasma treatment, bioactive surface.
Research Plan -
Research Plan
-
Recommended resources -
Recommended resources
-
Týká se praxe No
Enclosed appendices -
Appendices bound in thesis -
Taken from the library No
Full text of the thesis
Appendices
Reviewer's report
Supervisor's report
Defence procedure record file