Au₁₀₁–rGO nanocomposite: immobilization of phosphine-protected gold nanoclusters on reduced graphene oxide without aggregation

Abstract: A method is presented for the deposition of gold clusters onto reduced graphene oxide, without aggregation of the gold clusters.

“…[ 251e ] Further reports of XPS studies performed to examine the electronic structure of gold–phosphine clusters by different groups are available here. [ 28d,255a,b,252,258a,267 ]…”

“…Strategies to prevent aggregation such as the use of large surface areas, highly porous supports, creation of defects, ultralow gold loading and introduction of functionalized sites have been reported. [ 250,258b,406 ] Alotabi et al. recently demonstrated that deposition of a thin (1.1 nm) layer of Cr 2 O 3 onto Au 9 /TiO 2 inhibits agglomeration of gold clusters after ligand removal by heating.…”

A Review of State of the Art in Phosphine Ligated Gold Clusters and Application in Catalysis

“…[ 251e ] Further reports of XPS studies performed to examine the electronic structure of gold–phosphine clusters by different groups are available here. [ 28d,255a,b,252,258a,267 ]…”

“…Strategies to prevent aggregation such as the use of large surface areas, highly porous supports, creation of defects, ultralow gold loading and introduction of functionalized sites have been reported. [ 250,258b,406 ] Alotabi et al. recently demonstrated that deposition of a thin (1.1 nm) layer of Cr 2 O 3 onto Au 9 /TiO 2 inhibits agglomeration of gold clusters after ligand removal by heating.…”

A Review of State of the Art in Phosphine Ligated Gold Clusters and Application in Catalysis

“…It should be noted that this is different to the binding energy of Cr 2 O 3 and will be discussed below (vide infra). P was difficult to analyse using STEM-EDX due to the intensity of P in EDX being significantly lower than that of Au and due to overlapping of the P K α and Au M α peaks 61 . In Figure 3A, the HAADF-STEM image shows small bright particles, which can be identified from the EDX mapping as Au features.…”

Suppression of phosphine-protected Au₉ cluster agglomeration on SrTiO₃ particles using a chromium hydroxide layer

“…In recent decades, sub-2 nm sized gold nanoclusters and complexes (AuNCs) have been explored as promising electrocatalysts for ORR, [11][12][13][14][15][16][17][18][19][20][21][22][23][24] hydrogen evolution reaction (HER), [25] hydrogenation of terminal alkynes into alkenes, [26] CO oxidation, [27] styrene oxidation [28,29] and benzyl alcohol oxidation. [30,31] The unusual catalytic behaviour of the AuNCs compared to bulk Au is due to a series of size-dependant properties, including high surface-to-volume ratio, [15,32,33] molecular-like electronic properties, [34] and ligand density (if present).…”

“…[39] In addition, aggregation of AuNCs is prevented due to the strong metal support interaction between rGO and metal clusters. [25] DFT calculations have suggested that hybridization of Au with graphene materials can result in a highly active and stable ORR electrocatalyst. [40,41] Therefore, there is an emerging interest to develop AuNCs-based nanocomposites using graphene-related materials.…”

Methanol Tolerant Oxygen Reduction Reaction Electrocatalysis using Size‐Specific Triphenylphosphine‐Ligated Gold Nanoclusters