Structural Information on the Au–S Interface of Thiolate-Protected Gold Clusters: A Raman Spectroscopy Study

Abstract: The Raman spectra of a series of monolayer-protected gold clusters were investigated with special emphasis on the Au-S modes below 400 cm(-1). These clusters contain monomeric (SR-Au-SR) and dimeric (SR-Au-SR-Au-SR) gold-thiolate staples in their surface. In particular, the Raman spectra of Au-25(2-PET)(18)](0/-), Au-38(2-PET)(24), Au-40(2-PET)(24), and Au-144(2-PET)(60) (2-PET = 2-phenylethylthiol) were measured in order to study the influence of the cluster size and therefore the composition with respect to … Show more

“…The third component can be assigned to surface gold [29] in good correspondence with the quadrupole splitting values shown in Table 1. The fourth component can probably be originated from the middle of the mentioned bridging "staples", namely from gold atoms removed from the metallic surface and located in between two sulphurs, in good correspondence with data reported earlier for this S Au(I) S component [3,4,21,23,29]. It is worth noticing that the fraction of the surface components extracted from the relative intensity values shown in Table 1 is 53%.…”

“…5B). Appearance of an intense band at 285 cm −1 clearly attests for the presence of Au S bonds in good correspondence with [4]. Other characteristic bands also appear, namely symmetrical skeleton vibration at 1035 cm −1 , bending and valence vibrations for CH 2 at 1452 and 2926-2853 cm −1 , respectively.…”

“…Beside the Au S linear bonds additional monomeric (Au metal -SRAu(I)-SR-Au metal ) and dimeric (Au metal -SR-Au(I)-SR-Au(I)-SRAu metal ) "staples" can be formed in large molecular complexes, containing only a few dozens of core gold atoms. These structures are dominant at small thiolate encapped Au m (10 < m < 45) molecular clusters [2,4,21,22] and they can be observed on the sur face of larger particles as well [3,23]. On well-developed crystal faces of larger particles thiol molecules may form self-assembled monolayers [24].…”

“…In the low size range there are certain x values for Au x clusters at which their stabilization is preferred (25, 38, 55, 144, etc. ) [2][3][4][5]. Transition from these large molecular complexes (exhibiting separate valence bands) to metallic particles is around at Au 55 , i.e.…”

Fine structure of gold nanoparticles stabilized by buthyldithiol: Species identified by Mössbauer spectroscopy

“…The third component can be assigned to surface gold [29] in good correspondence with the quadrupole splitting values shown in Table 1. The fourth component can probably be originated from the middle of the mentioned bridging "staples", namely from gold atoms removed from the metallic surface and located in between two sulphurs, in good correspondence with data reported earlier for this S Au(I) S component [3,4,21,23,29]. It is worth noticing that the fraction of the surface components extracted from the relative intensity values shown in Table 1 is 53%.…”

“…5B). Appearance of an intense band at 285 cm −1 clearly attests for the presence of Au S bonds in good correspondence with [4]. Other characteristic bands also appear, namely symmetrical skeleton vibration at 1035 cm −1 , bending and valence vibrations for CH 2 at 1452 and 2926-2853 cm −1 , respectively.…”

“…Beside the Au S linear bonds additional monomeric (Au metal -SRAu(I)-SR-Au metal ) and dimeric (Au metal -SR-Au(I)-SR-Au(I)-SRAu metal ) "staples" can be formed in large molecular complexes, containing only a few dozens of core gold atoms. These structures are dominant at small thiolate encapped Au m (10 < m < 45) molecular clusters [2,4,21,22] and they can be observed on the sur face of larger particles as well [3,23]. On well-developed crystal faces of larger particles thiol molecules may form self-assembled monolayers [24].…”

“…In the low size range there are certain x values for Au x clusters at which their stabilization is preferred (25, 38, 55, 144, etc. ) [2][3][4][5]. Transition from these large molecular complexes (exhibiting separate valence bands) to metallic particles is around at Au 55 , i.e.…”

Fine structure of gold nanoparticles stabilized by buthyldithiol: Species identified by Mössbauer spectroscopy

“…KS-DFT was used as the electronic structure method in the framework of the Gaussian and plane waves formalism. We tested three different density functionals: BP86, 48,49 that has been found to perform well in static frequency calculations within the doubleharmonic approximation, [50][51][52][53][54][55][56][57][58][59][60][61][62][63] 73,74 for comparing purposes. BLYP-Goedecker-Teter-Hutter (GTH) (in case of PBE the PBE-GTH) pseudopotentials [75][76][77] and the TZVP-GTH and DZVP-GTH basis sets were applied.…”

Raman spectra from ab initio molecular dynamics and its application to liquid S-methyloxirane

Decorating InSe Surface by Gold Species for Improved Carrier Transport and Efficient Sunlight Harvesting Toward High‐Performance Flexible Photodetectors