Self-organisation of adsorbed nitrogen on (100) and (410) copper faces: a SPA-LEED study
Author:
Publisher
Elsevier BV
Subject
Materials Chemistry,Surfaces, Coatings and Films,Surfaces and Interfaces,Condensed Matter Physics
Reference20 articles.
1. Spontaneous Formation of Stress Domains on Crystal Surfaces
2. STM observations of Cu(100)−c(2×2)N surfaces: evidence for attractive interactions and an incommensurate c(2 × 2) structure
3. Structure of the Cu{100}-c(2×2)N surface: A scanning-tunneling-microscopy study
4. Fabricating nanometer-scale Ag lines and islands on Cu(100) surfaces
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1. Nitrogen Adsorption on Cu(001): Mechanisms of Stress Relief and Coexistence of Two Domains;e-Journal of Surface Science and Nanotechnology;2023-05-18
2. Scanning tunneling microscopy and photoemission studies of self-organised Ag nanostructures on the N-modified Cu(001) surface;Surface Science;2018-11
3. Surface X-ray diffraction analysis of Fe nanostructured films grown on c(2×2)-N/Cu(100);Surface Science;2012-05
4. Stress balance in nanopatterned N/Cu(001) surfaces;Physical Review B;2011-10-10
5. Nanostructures made by mixing Rh atoms on N-adsorbed Cu(001) surface;Surface Science;2011-10
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