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The effect of Plasma Treatment on the properties of 3D, biodegradable cell substrates developed using Rapid Prototyping Technology

Tim Desmet UGent, Thomas Billiet UGent, Elke Berneel UGent, Maria Cornelissen UGent, Etienne Schacht UGent and Peter Dubruel UGent (2009) Abstracts Workshop Engineering of Functional Interfaces. p.101-101
Please use this url to cite or link to this publication:
author
organization
year
type
conference
publication status
published
subject
keyword
the effect of different types of plasma treatment was evaluated., 3D-cell culture substrates were developed starting from biodegradable poly-ε-caprolactone (PCL) polyester using the Bioscaffolder as rapid prototyping technology. In order to overcome the limitations of the hydrophobic PCL surfaces lacking reactive functional groups
in
Abstracts Workshop Engineering of Functional Interfaces
editor
Patrick Wagner
pages
101 - 101
conference name
Workshop Engineering of Functional Interfaces
conference location
Hasselt
conference start
2009-06-18
conference end
2009-06-19
language
English
UGent publication?
yes
classification
C3
id
792048
handle
http://hdl.handle.net/1854/LU-792048
date created
2009-11-30 14:15:56
date last changed
2009-12-16 13:37:17
@inproceedings{792048,
  author       = {Desmet, Tim and Billiet, Thomas and Berneel, Elke and Cornelissen, Maria and Schacht, Etienne and Dubruel, Peter},
  booktitle    = {Abstracts Workshop Engineering of Functional Interfaces},
  editor       = {Wagner, Patrick},
  keyword      = {the effect of different types of plasma treatment was evaluated.,3D-cell culture substrates were developed starting from biodegradable poly-\ensuremath{\epsilon}-caprolactone (PCL) polyester using the Bioscaffolder as rapid prototyping technology. In order to overcome the limitations of the hydrophobic PCL surfaces lacking reactive functional groups},
  language     = {eng},
  location     = {Hasselt},
  pages        = {101--101},
  title        = {The effect of Plasma Treatment on the properties of 3D, biodegradable cell substrates developed using Rapid Prototyping Technology},
  year         = {2009},
}

Chicago
Desmet, Tim, Thomas Billiet, Elke Berneel, Maria Cornelissen, Etienne Schacht, and Peter Dubruel. 2009. “The Effect of Plasma Treatment on the Properties of 3D, Biodegradable Cell Substrates Developed Using Rapid Prototyping Technology.” In Abstracts Workshop Engineering of Functional Interfaces, ed. Patrick Wagner, 101–101.
APA
Desmet, T., Billiet, T., Berneel, E., Cornelissen, M., Schacht, E., & Dubruel, P. (2009). The effect of Plasma Treatment on the properties of 3D, biodegradable cell substrates developed using Rapid Prototyping Technology. In P. Wagner (Ed.), Abstracts Workshop Engineering of Functional Interfaces (pp. 101–101). Presented at the Workshop Engineering of Functional Interfaces.
Vancouver
1.
Desmet T, Billiet T, Berneel E, Cornelissen M, Schacht E, Dubruel P. The effect of Plasma Treatment on the properties of 3D, biodegradable cell substrates developed using Rapid Prototyping Technology. In: Wagner P, editor. Abstracts Workshop Engineering of Functional Interfaces. 2009. p. 101–101.
MLA
Desmet, Tim, Thomas Billiet, Elke Berneel, et al. “The Effect of Plasma Treatment on the Properties of 3D, Biodegradable Cell Substrates Developed Using Rapid Prototyping Technology.” Abstracts Workshop Engineering of Functional Interfaces. Ed. Patrick Wagner. 2009. 101–101. Print.