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Literature DB >> 16193042

Engineering atomic and molecular nanostructures at surfaces.

Johannes V Barth¹, Giovanni Costantini, Klaus Kern.

Abstract

The fabrication methods of the microelectronics industry have been refined to produce ever smaller devices, but will soon reach their fundamental limits. A promising alternative route to even smaller functional systems with nanometre dimensions is the autonomous ordering and assembly of atoms and molecules on atomically well-defined surfaces. This approach combines ease of fabrication with exquisite control over the shape, composition and mesoscale organization of the surface structures formed. Once the mechanisms controlling the self-ordering phenomena are fully understood, the self-assembly and growth processes can be steered to create a wide range of surface nanostructures from metallic, semiconducting and molecular materials.

Year: 2005 PMID： 16193042 DOI： 10.1038/nature04166

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

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Cited

121 in total

1. Controlling on-surface polymerization by hierarchical and substrate-directed growth.

Authors: L Lafferentz; V Eberhardt; C Dri; C Africh; G Comelli; F Esch; S Hecht; L Grill
Journal: Nat Chem Date: 2012-01-15 Impact factor: 24.427

2. Simulating self-organized molecular patterns using interaction-site models.

Authors: M Balbás Gambra; C Rohr; K Gruber; B A Hermann; T Franosch
Journal: Eur Phys J E Soft Matter Date: 2012-03-30 Impact factor: 1.890

3. Charge-transfer-induced structural rearrangements at both sides of organic/metal interfaces.

Authors: Tzu-Chun Tseng; Christian Urban; Yang Wang; Roberto Otero; Steven L Tait; Manuel Alcamí; David Ecija; Marta Trelka; José María Gallego; Nian Lin; Mitsuharu Konuma; Ulrich Starke; Alexei Nefedov; Alexander Langner; Christof Wöll; María Angeles Herranz; Fernando Martín; Nazario Martín; Klaus Kern; Rodolfo Miranda
Journal: Nat Chem Date: 2010-03-28 Impact factor: 24.427

Review 4. Nanomaterials in biological environment: a review of computer modelling studies.

Authors: A J Makarucha; N Todorova; I Yarovsky
Journal: Eur Biophys J Date: 2010-12-14 Impact factor: 1.733

5. Guest-induced growth of a surface-based supramolecular bilayer.

Authors: Matthew O Blunt; James C Russell; Maria del Carmen Gimenez-Lopez; Nassiba Taleb; Xiang Lin; Martin Schröder; Neil R Champness; Peter H Beton
Journal: Nat Chem Date: 2010-11-21 Impact factor: 24.427

6. Self-assembled aggregates formed by single-molecule magnets on a gold surface.

Authors: Alex Saywell; Graziano Magnano; Christopher J Satterley; Luís M A Perdigão; Andrew J Britton; Nassiba Taleb; María del Carmen Giménez-López; Neil R Champness; James N O'Shea; Peter H Beton
Journal: Nat Commun Date: 2010-09-21 Impact factor: 14.919

Engineering atomic and molecular nanostructures at surfaces.

1. Controlling on-surface polymerization by hierarchical and substrate-directed growth.

2. Simulating self-organized molecular patterns using interaction-site models.

3. Charge-transfer-induced structural rearrangements at both sides of organic/metal interfaces.

Review 4. Nanomaterials in biological environment: a review of computer modelling studies.

5. Guest-induced growth of a surface-based supramolecular bilayer.

6. Self-assembled aggregates formed by single-molecule magnets on a gold surface.

7. Self-recognition and self-selection in multicomponent supramolecular coordination networks on surfaces.

8. Molecular engineering of supramolecular scaffold coatings that can reduce static platelet adhesion.

9. Direct measurement of electrical conductance through a self-assembled molecular layer.

10. Surface confined metallosupramolecular architectures: formation and scanning tunneling microscopy characterization.