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Quantitative end-grafting of DNA onto flat and nanoporous gold surfaces

Quantitative end-grafting of DNA onto flat and nanoporous gold surfaces
Quantitative end-grafting of DNA onto flat and nanoporous gold surfaces
The adsorption of end-thiolated single- and double-stranded DNA on gold surfaces has been studied with particular a
ttention to the dependence of the adsorption density on the DNA base pair length. Quantitative understanding of probe immobilization and target binding is crucial for improving the performance of hybridization-based sensors and microarrays
978-0-9798064-1-4
1567-1569
Huang, ling
03530629-e546-4aff-8eda-372dda067d5f
Seker, Erkin
2583be7e-b2c4-4947-b91e-b5ffd5d4a4df
Utz, Marcel
c84ed64c-9e89-4051-af39-d401e423891b
Begley, Matthew R.
9f4e52bc-507a-4ef6-910f-bd11d25c2209
Landers, James P.
f85edaa2-5c24-4f2d-be3d-c84e631833ad
Huang, ling
03530629-e546-4aff-8eda-372dda067d5f
Seker, Erkin
2583be7e-b2c4-4947-b91e-b5ffd5d4a4df
Utz, Marcel
c84ed64c-9e89-4051-af39-d401e423891b
Begley, Matthew R.
9f4e52bc-507a-4ef6-910f-bd11d25c2209
Landers, James P.
f85edaa2-5c24-4f2d-be3d-c84e631833ad

Huang, ling, Seker, Erkin, Utz, Marcel, Begley, Matthew R. and Landers, James P. (2008) Quantitative end-grafting of DNA onto flat and nanoporous gold surfaces. 12th International Conference on Miniaturized Systems for Chemistry and Life Sciences, United States. 12 - 16 Oct 2008. pp. 1567-1569 .

Record type: Conference or Workshop Item (Other)

Abstract

The adsorption of end-thiolated single- and double-stranded DNA on gold surfaces has been studied with particular a
ttention to the dependence of the adsorption density on the DNA base pair length. Quantitative understanding of probe immobilization and target binding is crucial for improving the performance of hybridization-based sensors and microarrays

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More information

Published date: 2008
Venue - Dates: 12th International Conference on Miniaturized Systems for Chemistry and Life Sciences, United States, 2008-10-12 - 2008-10-16
Organisations: Faculty of Natural and Environmental Sciences, Chemistry, Magnetic Resonance

Identifiers

Local EPrints ID: 355072
URI: http://eprints.soton.ac.uk/id/eprint/355072
ISBN: 978-0-9798064-1-4
PURE UUID: 3bbfe204-2bbb-4871-81c4-bc5293676611
ORCID for Marcel Utz: ORCID iD orcid.org/0000-0003-2274-9672

Catalogue record

Date deposited: 26 Jul 2013 13:45
Last modified: 10 Dec 2019 01:36

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