An adjustable force soft-contact lithography for patterning biomolecules on 3D topologies
In this paper, we report on a precision patterning technique using an adjustable-force soft-landing contact lithography that can be used to stamp functional biomolecules on planar and non-planar fragile surfaces. We have successfully patterned fluorescent antibodies (Alexa 568 antigoat IgG) on...
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iium-443312020-02-11T02:21:04Z http://irep.iium.edu.my/44331/ An adjustable force soft-contact lithography for patterning biomolecules on 3D topologies Wan Salim, Wan Wardatul Amani Humad, Shweta Ayazi, Farrokh Ziaie, Babak QD Chemistry TK Electrical engineering. Electronics Nuclear engineering In this paper, we report on a precision patterning technique using an adjustable-force soft-landing contact lithography that can be used to stamp functional biomolecules on planar and non-planar fragile surfaces. We have successfully patterned fluorescent antibodies (Alexa 568 antigoat IgG) on high frequency silicon microresonators with central vibrating bodies ranging from 20x10 to 480x240pm2 and arrays of 40pm diameter circular patterns with superior uniformity and without loss in proteins functionality. The printed antibodies were tested for effectiveness in binding fluorescent conjugated antigen (488 labeled goat anti-mouse IgG), and were shown to retain nearly-optimal bindings. IEEE 2005-07-05 Conference or Workshop Item PeerReviewed application/pdf en http://irep.iium.edu.my/44331/7/44331%20ADJUSTABLE-FORCE%20SOFT-LANDING%20CONTACT%20LITHOGRAPHY.pdf Wan Salim, Wan Wardatul Amani and Humad, Shweta and Ayazi, Farrokh and Ziaie, Babak (2005) An adjustable force soft-contact lithography for patterning biomolecules on 3D topologies. In: 18th IEEE International Conference on Micro Electro Mechanical Systems, 2005. MEMS 2005., 30th January.-3rd February 2005, Miami, Florida. https://ieeexplore.ieee.org/document/1454043 10.1109/MEMSYS.2005.1454043 |
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QD Chemistry TK Electrical engineering. Electronics Nuclear engineering |
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QD Chemistry TK Electrical engineering. Electronics Nuclear engineering Wan Salim, Wan Wardatul Amani Humad, Shweta Ayazi, Farrokh Ziaie, Babak An adjustable force soft-contact lithography for patterning biomolecules on 3D topologies |
description |
In this paper, we report on a precision patterning
technique using an adjustable-force soft-landing
contact lithography that can be used to stamp
functional biomolecules on planar and non-planar
fragile surfaces. We have successfully patterned
fluorescent antibodies (Alexa 568 antigoat IgG) on
high frequency silicon microresonators with
central vibrating bodies ranging from 20x10 to
480x240pm2 and arrays of 40pm diameter circular
patterns with superior uniformity and without loss
in proteins functionality. The printed antibodies
were tested for effectiveness in binding fluorescent
conjugated antigen (488 labeled goat anti-mouse
IgG), and were shown to retain nearly-optimal
bindings. |
format |
Conference or Workshop Item |
author |
Wan Salim, Wan Wardatul Amani Humad, Shweta Ayazi, Farrokh Ziaie, Babak |
author_facet |
Wan Salim, Wan Wardatul Amani Humad, Shweta Ayazi, Farrokh Ziaie, Babak |
author_sort |
Wan Salim, Wan Wardatul Amani |
title |
An adjustable force soft-contact lithography for patterning biomolecules on 3D topologies |
title_short |
An adjustable force soft-contact lithography for patterning biomolecules on 3D topologies |
title_full |
An adjustable force soft-contact lithography for patterning biomolecules on 3D topologies |
title_fullStr |
An adjustable force soft-contact lithography for patterning biomolecules on 3D topologies |
title_full_unstemmed |
An adjustable force soft-contact lithography for patterning biomolecules on 3D topologies |
title_sort |
adjustable force soft-contact lithography for patterning biomolecules on 3d topologies |
publisher |
IEEE |
publishDate |
2005 |
url |
http://irep.iium.edu.my/44331/ http://irep.iium.edu.my/44331/ http://irep.iium.edu.my/44331/ http://irep.iium.edu.my/44331/7/44331%20ADJUSTABLE-FORCE%20SOFT-LANDING%20CONTACT%20LITHOGRAPHY.pdf |
first_indexed |
2023-09-18T21:03:03Z |
last_indexed |
2023-09-18T21:03:03Z |
_version_ |
1777410751569330176 |