TY - JOUR
T1 - Metal-ligand interface in the chemical reactions of ligand protected noble metal clusters
AU - Krishnadas, Kumaranchira Ramankutty
AU - Natarajan, Ganapati
AU - Baksi, Ananya
AU - Ghosh, Atanu
AU - Khatun, Esma
AU - Pradeep, Thalappil
N1 - KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: K.R.K., A.G. and E.K. thank the UGC for their senior research fellowships. A.B. thanks IIT Madras for an Institute Post-Doctoral Fellowship. We thank the Department of Science and Technology for constantly supporting our research program.
PY - 2018/12/19
Y1 - 2018/12/19
N2 - We discuss the role of the metal-ligand (M-L) interfaces in the chemistry of ligand protected, atomically precise noble metal clusters, a new and expanding family of nanosystems, in solution as well as in gas phase. A few possible mechanisms in which the structure and dynamics of M-L interfaces could trigger intercluster exchange reactions are presented first. How interparticle chemistry can be a potential mechanism of Ostwald ripening, a well-known particle coarsening process, is also discussed. Reaction of Ag59(2,5-DCBT)32 (DCBT = dichlorobenzenethiol) with 2,4-DCBT leading to the formation of Ag44(2,4-DCBT)30 is presented, demonstrating the influence of the ligand structure in ligand-induced chemical transformations of clusters. We also discuss structural isomerism of clusters such as Ag44(SR)30 (-SR = alkyl/aryl thiolate) in gas phase wherein the occurrence of isomerism is attributed to the structural rearrangements in the M-L bonding network. Interfacial bonding between Au25(SR)18 clusters leading to the formation of cluster dimers and trimers is also discussed. Finally, we show that desorption of phosphine and hydride ligands on a silver cluster, [Ag18(TPP)10H16]2+ (TPP = triphenylphosphine) in gas phase, lead to the formation of a naked silver cluster of precise nuclearity, such as Ag17+. We demonstrate that the nature of the M-L interfaces, i.e., the oxidation state of metal atoms, structure of the ligand, M-L bonding network, etc., play key roles in the chemical reactivity of clusters. The structure, dynamics and chemical reactivity of nanosystems in general are to be explored together to obtain new insights into their emerging science.
AB - We discuss the role of the metal-ligand (M-L) interfaces in the chemistry of ligand protected, atomically precise noble metal clusters, a new and expanding family of nanosystems, in solution as well as in gas phase. A few possible mechanisms in which the structure and dynamics of M-L interfaces could trigger intercluster exchange reactions are presented first. How interparticle chemistry can be a potential mechanism of Ostwald ripening, a well-known particle coarsening process, is also discussed. Reaction of Ag59(2,5-DCBT)32 (DCBT = dichlorobenzenethiol) with 2,4-DCBT leading to the formation of Ag44(2,4-DCBT)30 is presented, demonstrating the influence of the ligand structure in ligand-induced chemical transformations of clusters. We also discuss structural isomerism of clusters such as Ag44(SR)30 (-SR = alkyl/aryl thiolate) in gas phase wherein the occurrence of isomerism is attributed to the structural rearrangements in the M-L bonding network. Interfacial bonding between Au25(SR)18 clusters leading to the formation of cluster dimers and trimers is also discussed. Finally, we show that desorption of phosphine and hydride ligands on a silver cluster, [Ag18(TPP)10H16]2+ (TPP = triphenylphosphine) in gas phase, lead to the formation of a naked silver cluster of precise nuclearity, such as Ag17+. We demonstrate that the nature of the M-L interfaces, i.e., the oxidation state of metal atoms, structure of the ligand, M-L bonding network, etc., play key roles in the chemical reactivity of clusters. The structure, dynamics and chemical reactivity of nanosystems in general are to be explored together to obtain new insights into their emerging science.
UR - http://hdl.handle.net/10754/630269
UR - https://pubs.acs.org/doi/10.1021/acs.langmuir.8b03493
U2 - 10.1021/acs.langmuir.8b03493
DO - 10.1021/acs.langmuir.8b03493
M3 - Article
SN - 0743-7463
VL - 35
SP - 11243
EP - 11254
JO - Langmuir
JF - Langmuir
IS - 35
ER -