Add to ORKGThe effect of the chain length separating sulfur atoms in bidentate thiols attached to defective gold surfaces on the rupture of the respective molecule-gold junctions has been studied computationally. Thermal desorption always yields cyclic disulfides. In contrast, mechanochemical desorption leads to cyclic gold complexes, where metal atoms are extracted from the surface and kept in tweezer-like arrangements by the sulfur atoms. This phenomenon is rationalized in terms of directional mechanical manipulation of Au-Au bonds and Au-S coordination numbers. Moreover, the flexibility of the chain is shown to crucially impact on the mechanical strength of the junction
Organic thiols are known to react with gold surface to form self-assembled monolayers (SAMs), which ...
The interaction of thiol and thiolate containing molecules with gold (S-Au) has gained increasing in...
Chemists generally believe that covalent and ionic bonds form much stronger links between atoms than...
The effect of the chain length separating sulfur atoms in bidentate thiols attached to defective gol...
The effect of the chain length separating sulfur atoms in bidentate thiols attached to defective gol...
Dynamic evolutions of molecular binding structures and breaking forces of gold/thiolate molecular ju...
Gold-molecule-gold junctions can be formed by carefully breaking a gold wire in a solution containin...
Using the break-junction technique, we show that “Au(RS)<sub>2</sub>” units play a significant role...
Thiolated gold nanointerfaces play a key role in numerous fields of science, technology, as well as ...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
We investigate, by means of first-principles calculations, structural and transport properties of ju...
Die strukturellen und nanomechanischen Eigenschaften von selbstorganisierten Lagen (self-assembled m...
Understanding the structure and conductance of the molecular junction between benzene dithiolates (B...
Organic thiols are known to react with gold surface to form self-assembled monolayers (SAMs), which ...
The interaction of thiol and thiolate containing molecules with gold (S-Au) has gained increasing in...
Chemists generally believe that covalent and ionic bonds form much stronger links between atoms than...
The effect of the chain length separating sulfur atoms in bidentate thiols attached to defective gol...
The effect of the chain length separating sulfur atoms in bidentate thiols attached to defective gol...
Dynamic evolutions of molecular binding structures and breaking forces of gold/thiolate molecular ju...
Gold-molecule-gold junctions can be formed by carefully breaking a gold wire in a solution containin...
Using the break-junction technique, we show that “Au(RS)<sub>2</sub>” units play a significant role...
Thiolated gold nanointerfaces play a key role in numerous fields of science, technology, as well as ...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
We investigate, by means of first-principles calculations, structural and transport properties of ju...
Die strukturellen und nanomechanischen Eigenschaften von selbstorganisierten Lagen (self-assembled m...
Understanding the structure and conductance of the molecular junction between benzene dithiolates (B...
Organic thiols are known to react with gold surface to form self-assembled monolayers (SAMs), which ...
The interaction of thiol and thiolate containing molecules with gold (S-Au) has gained increasing in...
Chemists generally believe that covalent and ionic bonds form much stronger links between atoms than...