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Novel Approach to Controlled Surface Modification in Textile Via Magnetic Cross- Linked Enzyme Aggregates (Clea)

Person, Alixander ; Dicko, Cedric LU orcid ; Çobanglu, Özgür ; Yükselen, Onur ; Dey, Estera LU and Eryilmaz, Jitka (2015) In Tekstil ve Muhendis 22(97). p.44-49
Abstract
In this proceeding, architecting novel magnetic Cross-Linked-Enzyme-Aggregates (CLEA)
nanoparticles to effectively and controllably modify textile surfaces without damaging the fabric itself, will be
discussed. The efficiency is due to exponentially increased surface concentration of biocatalyst and to the
choice of aggregate size which controls the penetration depth and hence preventing the fabric disruption. In
addition, due to the presence of magnetic nanoparticles, the continuous recovery and reusability makes this
design more economic and ecologic compared to the conventional chemical processes. The careful fabrication
and functionalization of such a design with preliminary results will be presented in this... (More)
In this proceeding, architecting novel magnetic Cross-Linked-Enzyme-Aggregates (CLEA)
nanoparticles to effectively and controllably modify textile surfaces without damaging the fabric itself, will be
discussed. The efficiency is due to exponentially increased surface concentration of biocatalyst and to the
choice of aggregate size which controls the penetration depth and hence preventing the fabric disruption. In
addition, due to the presence of magnetic nanoparticles, the continuous recovery and reusability makes this
design more economic and ecologic compared to the conventional chemical processes. The careful fabrication
and functionalization of such a design with preliminary results will be presented in this contribution. (Less)
Please use this url to cite or link to this publication:
author
; ; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Biocatalysis, enzymatic process, biomimicking, biostoning, textile surface treatment, cellulosome, clea, magnetic nano-particle, reusability
in
Tekstil ve Muhendis
volume
22
issue
97
pages
44 - 49
publisher
TMMOB Chamber of Textile Engineers
external identifiers
  • scopus:84928570526
ISSN
2147-0510
DOI
10.7216/130075992015229707
language
English
LU publication?
yes
id
450b37d0-e6ff-4991-9d2c-9d32b1772b2c
date added to LUP
2016-04-28 12:12:24
date last changed
2022-01-30 03:00:28
@article{450b37d0-e6ff-4991-9d2c-9d32b1772b2c,
  abstract     = {{In this proceeding, architecting novel magnetic Cross-Linked-Enzyme-Aggregates (CLEA)<br/>nanoparticles to effectively and controllably modify textile surfaces without damaging the fabric itself, will be<br/>discussed. The efficiency is due to exponentially increased surface concentration of biocatalyst and to the<br/>choice of aggregate size which controls the penetration depth and hence preventing the fabric disruption. In<br/>addition, due to the presence of magnetic nanoparticles, the continuous recovery and reusability makes this<br/>design more economic and ecologic compared to the conventional chemical processes. The careful fabrication<br/>and functionalization of such a design with preliminary results will be presented in this contribution.}},
  author       = {{Person, Alixander and Dicko, Cedric and Çobanglu, Özgür and Yükselen, Onur and Dey, Estera and Eryilmaz, Jitka}},
  issn         = {{2147-0510}},
  keywords     = {{Biocatalysis; enzymatic process; biomimicking; biostoning; textile surface treatment; cellulosome; clea; magnetic nano-particle; reusability}},
  language     = {{eng}},
  number       = {{97}},
  pages        = {{44--49}},
  publisher    = {{TMMOB Chamber of Textile Engineers}},
  series       = {{Tekstil ve Muhendis}},
  title        = {{Novel Approach to Controlled Surface Modification in Textile Via Magnetic Cross- Linked Enzyme Aggregates (Clea)}},
  url          = {{http://dx.doi.org/10.7216/130075992015229707}},
  doi          = {{10.7216/130075992015229707}},
  volume       = {{22}},
  year         = {{2015}},
}