Modulating the Reactivity of Electrode Surfaces by Electrostatic Assembly of Metal Nanoparticles and Quantum Dots
Charge transport phenomena in opto-electronic devices featuring functional polymers and nanostructured materials critically depend on the electronic communication between the building blocks and the metal contacts. The generation of ordered multilayer structures at electrode surfaces is often a key...
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| Published in | Chimia Vol. 62; no. 10 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Swiss Chemical Society
01.01.2008
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Charge transport phenomena in opto-electronic devices featuring functional polymers and nanostructured materials critically depend on the electronic communication between the building blocks and the metal contacts. The generation of ordered multilayer structures at electrode surfaces is often a key requirement to avoid electrically isolated (inactive) areas in the devices. This issue is particularly crucial in hybrid photovoltaic, light emitting and electrochromic systems. In the present contribution, the properties of electrode surfaces modified by electrostatic layer-by-layer methods are highlighted as a versatile approach for generating two- and three-dimensional assemblies of nanostructures. The connectivity between the nanoparticles and the electrode surface is probed by a variety of techniques including Kelvin probe, electrostatic force microscopy and electrochemical methods. The main characteristics of electrode surfaces modified by electrostatic self-assembly are illustrated with several examples involving metal nanostructures and CdTe quantum dots. |
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| AbstractList | Charge transport phenomena in opto-electronic devices featuring functional polymers and nanostructured materials critically depend on the electronic communication between the building blocks and the metal contacts. The generation of ordered multilayer structures at electrode surfaces is often a key requirement to avoid electrically isolated (inactive) areas in the devices. This issue is particularly crucial in hybrid photovoltaic, light emitting and electrochromic systems. In the present contribution, the properties of electrode surfaces modified by electrostatic layer-by-layer methods are highlighted as a versatile approach for generating two- and three-dimensional assemblies of nanostructures. The connectivity between the nanoparticles and the electrode surface is probed by a variety of techniques including Kelvin probe, electrostatic force microscopy and electrochemical methods. The main characteristics of electrode surfaces modified by electrostatic self-assembly are illustrated with several examples involving metal nanostructures and CdTe quantum dots. |
| Author | Gabriela P. Kissling Christa Bünzli Michel Carrara Evren Aslan-Guerel Christopher R. Bradbury David J. Fermín Jianjun Zhao |
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| CitedBy_id | crossref_primary_10_1016_j_cplett_2018_09_001 crossref_primary_10_1021_acs_chemmater_8b04977 crossref_primary_10_1039_c1cp21996k crossref_primary_10_1016_j_jelechem_2010_04_015 crossref_primary_10_1016_j_diamond_2010_01_039 crossref_primary_10_1088_0957_4484_23_48_485707 |
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| Snippet | Charge transport phenomena in opto-electronic devices featuring functional polymers and nanostructured materials critically depend on the electronic... |
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| SubjectTerms | Efm Electrochemistry Electrode surfaces Electrostatic layer-by-layer assembly Kelvin probe Metal nanoparticles |
| Title | Modulating the Reactivity of Electrode Surfaces by Electrostatic Assembly of Metal Nanoparticles and Quantum Dots |
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