Optical and electrical interactions in self-assembled metal nanoparticle superstructures

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dc.contributor Aalto-yliopisto fi
dc.contributor Aalto University en
dc.contributor.author Ahonen, Päivi
dc.date.accessioned 2012-08-20T06:29:26Z
dc.date.available 2012-08-20T06:29:26Z
dc.date.issued 2008
dc.identifier.isbn 978-951-22-9362-9
dc.identifier.isbn 978-951-22-9361-2 (printed) #8195;
dc.identifier.issn 1795-4584
dc.identifier.uri https://aaltodoc.aalto.fi/handle/123456789/4491
dc.description.abstract Self-assembly of molecules and supramolecules is one of the fundamental phenomena in chemistry, physics, biology and material science. For example biological systems, like lipid bilayers of cell membranes and tertiary protein structures are formed by spontaneous self-assembly. Conformation and properties of these assemblies can be affected by changing the local environment of the structures. In the case of biological molecules, such an example would be protonation or deprotonation by changes in pH. When changing the conformation, one often changes the collective properties of the molecular assemblies. In this thesis, the formation of functional nanoscale devices is approached from the self-assembly of molecules and metallic monolayer capped nanoparticles into superstructures consisting of numerous nanoparticles. Stabilisation of the individual nanosized particles is based on bonding between noble metals and thiol ligands. The desired chemical characteristics and functionality of the nanoparticles is achieved by choosing the capping ligand layer and thus, directing the interactions between the nanoparticles. Both formation and functionality of the superstructures are studied in this thesis. Syntheses of silver and gold nanoparticles capped with different ligands are included. Both the individual nanoparticles and the colloidal superstructures formed by them were characterised by transmission electron microscopy (TEM), dynamic light scattering (DLS), zeta-potential measurements and UV-vis spectroscopy. Characterisation of the electrical properties of the self-assembled structures were carried out by scanning electrochemical microscopy (SECM). The thesis is divided in three parts, considering first the formation of colloidal nanoparticle superstructures in solution, then a photoresponsive switching nanoparticle structure and finally electron transport processes in nanoscale films. In the first part, formation of nanoparticle aggregates via chemical and electrostatic interactions are studied. The second part consists of assembly and characterisation of a nanoswitch built from nanoparticles and photoisomerisable azobenzene molecules. In the last section of the thesis, electron transport processes in two self-assembled nanoscale films are studied with SECM. The first system is a molecular self-assembled monolayer and the second a film consisting of gold nanoparticles. en
dc.format.extent Verkkokirja (5470 KB, 55 s.)
dc.format.mimetype application/pdf
dc.language.iso en en
dc.publisher Teknillinen korkeakoulu en
dc.relation.ispartofseries TKK Dissertations, 120 en
dc.relation.haspart [Publication 1]: Päivi Ahonen, Timo Laaksonen, Antti Nykänen, Janne Ruokolainen, and Kyösti Kontturi. 2006. Formation of stable Ag-nanoparticle aggregates induced by dithiol cross-linking. Journal of Physical Chemistry B, volume 110, number 26, pages 12954-12958. en
dc.relation.haspart [Publication 2]: Timo Laaksonen, Päivi Ahonen, Christoffer Johans, and Kyösti Kontturi. 2006. Stability and electrostatics of mercaptoundecanoic acid capped gold nanoparticles with varying counter-ion sizes. ChemPhysChem, volume 7, number 10, pages 2143-2149. © 2006 by authors and © 2006 Wiley-VCH Verlag. By permission. en
dc.relation.haspart [Publication 3]: Päivi Ahonen, David J. Schiffrin, Jerzy Paprotny, and Kyösti Kontturi. 2007. Optical switching of coupled plasmons of Ag-nanoparticles by photoisomerisation of an azobenzene ligand. Physical Chemistry Chemical Physics, volume 9, number 5, pages 651-658. © 2007 Royal Society of Chemistry. By permission. en
dc.relation.haspart [Publication 4]: Päivi Ahonen, Timo Laaksonen, David J. Schiffrin, and Kyösti Kontturi. 2007. Photoswitching electron transport properties of an azobenzene containing thiol-SAM. Physical Chemistry Chemical Physics, volume 9, number 35, pages 4898-4901. © 2007 Royal Society of Chemistry. By permission. en
dc.relation.haspart [Publication 5]: Päivi Ahonen, Virginia Ruiz, Kyösti Kontturi, Peter Liljeroth, and Bernadette M. Quinn. 2008. Electrochemical gating in scanning electrochemical microscopy. Journal of Physical Chemistry C, volume 112, number 7, pages 2724-2728. en
dc.subject.other Chemistry en
dc.title Optical and electrical interactions in self-assembled metal nanoparticle superstructures en
dc.type G5 Artikkeliväitöskirja fi
dc.contributor.department Kemian laitos fi
dc.subject.keyword nanoparticles en
dc.subject.keyword self-assembled monolayers en
dc.subject.keyword SECM en
dc.subject.keyword molecular switches en
dc.identifier.urn URN:ISBN:978-951-22-9362-9
dc.type.dcmitype text en
dc.type.ontasot Väitöskirja (artikkeli) fi
dc.type.ontasot Doctoral dissertation (article-based) en

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