cited By 12International audienceSierpiński triangle fractals were constructed on both Ag(111) and symmetry-mismatched fourfold Ag(100) surfaces through chemical reaction between H3PH molecules and Fe atoms under vacuum. Density functional theory calculations revealed that the fractals were stabilized by the strong coordination interaction between Fe and O atoms. In comparison, pure H3PH molecules formed fractals via moderately strong hydrogen bonds only on Ag(111), not on Ag(100)
The research presented in this thesis makes use of small molecules (as H2 , D2 and O2 ) ...
We present a comparative density functional theory investigation of the furfural (Ff ) molecule on t...
We describe the formation of lanthanide–organic coordination networks and complexes under ultra-high...
Sierpinski triangle fractals were constructed on both Ag(111) and symmetry-mismatched fourfold Ag(10...
cited By 14International audienceSelf-similar fractals are of importance in both science and enginee...
Self-similar fractal structures are of fundamental importance in science, mathematics, and aesthetic...
Fractals, being "exactly the same at every scale or nearly the same at different scales" a...
Self-similar fractal structures are of fundamental importance in science, mathematics, and aesthetic...
cited By 18International audienceRecent studies demonstrate that simple functional molecules, which ...
International audienceOne-dimensional molecular chains with Sierpi´nski triangles as building blocks...
Hydrogen-bond formation between ionic adsorbates on an Ag(111) surface under ultrahigh vacuum was st...
Catalytic reactions perform best if the interaction between the adsorbates and the surface is not to...
Fractals have existed in a variety of natural forms, and the concept of fractal geometry has been ...
The controlled formation of non-covalent bonds (H-bonding, metal-ligand interactions) is the key ing...
The icosahedral Al-13 is a "magic" cluster with remarkable stability due to its high symmetry and cl...
The research presented in this thesis makes use of small molecules (as H2 , D2 and O2 ) ...
We present a comparative density functional theory investigation of the furfural (Ff ) molecule on t...
We describe the formation of lanthanide–organic coordination networks and complexes under ultra-high...
Sierpinski triangle fractals were constructed on both Ag(111) and symmetry-mismatched fourfold Ag(10...
cited By 14International audienceSelf-similar fractals are of importance in both science and enginee...
Self-similar fractal structures are of fundamental importance in science, mathematics, and aesthetic...
Fractals, being "exactly the same at every scale or nearly the same at different scales" a...
Self-similar fractal structures are of fundamental importance in science, mathematics, and aesthetic...
cited By 18International audienceRecent studies demonstrate that simple functional molecules, which ...
International audienceOne-dimensional molecular chains with Sierpi´nski triangles as building blocks...
Hydrogen-bond formation between ionic adsorbates on an Ag(111) surface under ultrahigh vacuum was st...
Catalytic reactions perform best if the interaction between the adsorbates and the surface is not to...
Fractals have existed in a variety of natural forms, and the concept of fractal geometry has been ...
The controlled formation of non-covalent bonds (H-bonding, metal-ligand interactions) is the key ing...
The icosahedral Al-13 is a "magic" cluster with remarkable stability due to its high symmetry and cl...
The research presented in this thesis makes use of small molecules (as H2 , D2 and O2 ) ...
We present a comparative density functional theory investigation of the furfural (Ff ) molecule on t...
We describe the formation of lanthanide–organic coordination networks and complexes under ultra-high...