[EN] Adsorbed amino acids can modulate the behavior of metal nanoparticles in advanced applications. Using a combination of electrochemical experiments, FTIR spectroscopy, and DFT calculations, glutamate species interacting with the Au(111) surface in solution are here investigated. Electrochemical results indicate that the adsorption behavior depends on the solution pH (which controls the glutamate ionization) and on the charge of the surface. Glutamate adsorption starts at potentials slightly negative to the potential of zero charge. The thermodynamic analysis of these results indicates that two electrons are exchanged per molecule, implying that both carboxylic groups become deprotonated upon adsorption. The FTIR spectra reveal that carb...
Among the low-index single-crystal gold surfaces, the Au(110) surface is the most active toward mole...
Along with the rapid growth of the nanotechnology, nanoparticles (NPs) have found many applications ...
Computational approaches are employed to elucidate the binding mechanism and the SERS phenomenon of ...
Adsorbed amino acids can modulate the behavior of metal nanoparticles in advanced applications. Usin...
Advanced medical applications of gold nanoparticles can use amino acids as surface modifiers. For th...
[EN] Advanced medical applications of gold nanoparticles can use amino acids as surface modifiers. F...
The interaction of amino acids with metal electrodes plays a crucial role in bioelectrochemistry and...
The interaction of amino acids with metal electrodes plays a crucial role in bioelectrochemistry and...
The interaction of amino acids with metal electrodes plays a crucial role in bioelectrochemistry and...
The interaction of amino acids with metal electrodes plays a crucial role in bioelectrochemistry and...
The adsorption mechanism of twenty amino acids and four surfactants was examined on a {111} surface ...
The adsorption mechanism of twenty amino acids and four surfactants was examined on a {111} surface ...
The adsorption mechanism of twenty amino acids and four surfactants was examined on a {111} surface ...
The work reported here describes interactions between nanoscale Au colloids and two main types of or...
In examining adsorption of a few selected single amino acids on Au and Pd cluster models by density ...
Among the low-index single-crystal gold surfaces, the Au(110) surface is the most active toward mole...
Along with the rapid growth of the nanotechnology, nanoparticles (NPs) have found many applications ...
Computational approaches are employed to elucidate the binding mechanism and the SERS phenomenon of ...
Adsorbed amino acids can modulate the behavior of metal nanoparticles in advanced applications. Usin...
Advanced medical applications of gold nanoparticles can use amino acids as surface modifiers. For th...
[EN] Advanced medical applications of gold nanoparticles can use amino acids as surface modifiers. F...
The interaction of amino acids with metal electrodes plays a crucial role in bioelectrochemistry and...
The interaction of amino acids with metal electrodes plays a crucial role in bioelectrochemistry and...
The interaction of amino acids with metal electrodes plays a crucial role in bioelectrochemistry and...
The interaction of amino acids with metal electrodes plays a crucial role in bioelectrochemistry and...
The adsorption mechanism of twenty amino acids and four surfactants was examined on a {111} surface ...
The adsorption mechanism of twenty amino acids and four surfactants was examined on a {111} surface ...
The adsorption mechanism of twenty amino acids and four surfactants was examined on a {111} surface ...
The work reported here describes interactions between nanoscale Au colloids and two main types of or...
In examining adsorption of a few selected single amino acids on Au and Pd cluster models by density ...
Among the low-index single-crystal gold surfaces, the Au(110) surface is the most active toward mole...
Along with the rapid growth of the nanotechnology, nanoparticles (NPs) have found many applications ...
Computational approaches are employed to elucidate the binding mechanism and the SERS phenomenon of ...