Interparticle Reactions: An Emerging Direction in Nanomaterials Chemistry

Krishnadas, Kumaranchira Ramankutty; Baksi, Ananya; Ghosh, Atanu; Natarajan, Ganapati; Som, Anirban; Pradeep, Thalappil

doi:10.1021/acs.accounts.7b00224

Cited by 93 publications

(123 citation statements)

References 59 publications

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“…Recently, reactions between clusters in solution phase were also reported. [59][60][61][62][63][64] These reactions invariably involve the metal atoms and ligands in the staple or mount motifs of these clusters. [65][66][67][68] Dynamic nature of the staple motifs or mounts [69][70][71][72][73][74] and reactions of these 4 clusters have been studied, mostly in the solution phase.…”

Section: Introductionmentioning

confidence: 99%

Metal–Ligand Interface in the Chemical Reactions of Ligand-Protected Noble Metal Clusters

et al. 2018

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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

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Section: Introductionmentioning

confidence: 99%

Metal–Ligand Interface in the Chemical Reactions of Ligand-Protected Noble Metal Clusters

et al. 2018

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“…In this review, we expect to highlight part of the contribution from the Latin American region in the field of superatoms and related clusters, which is particularly focused in the area of gold chemistry. In the same venue, the reader is warned that only part of the global literature is covered in the current review, where for a more concise bibliography the reader requires more extensive literature reviews . It is important to note that available computational resources are able to count on the experimentally available data in good faith, allowing for further understanding, prediction and proper design of novel undiscovered structures.…”

Section: Introductionmentioning

confidence: 90%

“…In the same venue, the reader is warned that only part of the global literature is covered in the current review, where for a more concise bibliography the reader requires more extensive literature reviews. [1,25,[37][38][39] It is important to note that available computational resources are able to count on the experimentally available data in good faith, allowing for further understanding, prediction and proper design of novel undiscovered structures. In this sense, relativistic density-functional-theory (DFT) appears to be valuable tool, since it enables the study to be carried out with a moderate computational effort.…”

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confidence: 99%

Bonding and properties of superatoms. Analogs to atoms and molecules and related concepts from superatomic clusters

Tlahuice‐Flores

Muñoz-Castro

2018

Int J of Quantum Chemistry

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Expanding the versatility of well‐defined clusters is a fundamental issue in the design of functional nanostructures. In this sense, the concept of super atoms allows us to gain a deeper understanding and rationalization of the different properties of metallic clusters by invoking more familiar aspects. Recently, the super atoms appear to be intimately connected to other relevant tools of great chemical significance which enhance a rational design of superatomic clusters mimicking more complex structures and networks. Here, we expect to account for the research efforts from Latin American groups in the field, highlighting their valuable contribution to superatomic and related clusters.

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“…Inter-cluster reactions are an emerging area in the field of NCs 107 . Krishnadas et al demonstrated the reaction between Au 25 (FTP) 18 and Ag 44 (FTP) 30 NCs, which produces a mixture of alloy clusters in solution 108, 109 .…”

Section: Reactions Between Nanoparticlesmentioning

confidence: 99%

“…Salassa et al used MALDI MS and NMR spectroscopy to show that monolayers of clusters are dynamic in nature, and inter-cluster ligand exchanges can occur during collision between the NCs 111 . Using isotopically pure silver clusters made of 107 Ag and 109 Ag, Chakraborty et al studied rapid isotopic exchange in silver clusters by HR ESI MS and found that the solution-state exchange dynamics of the clusters is similar to that occurring in water (H 2 O + D 2 O = 2HDO) 112 .…”

Section: Reactions Between Nanoparticlesmentioning

confidence: 99%

The emerging interface of mass spectrometry with materials

Chakraborty

Pradeep

2019

NPG Asia Mater

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Mass spectrometry (MS), a hundred-year-old subject, has been a technique of profound importance to molecular science. Its impact in solid-state materials science has not been evident, although many materials of modern science, such as fullerenes, have their origins in MS. Of late, mass spectrometric interface with materials is increasingly strengthened with advances in atomically precise clusters of noble metals. Advances in instrumentation along with recent developments in synthetic approaches have expanded the chemistry of clusters, and new insights into matter at the nanoscale are emerging. High-resolution MS coupled with soft ionization techniques enable efficient characterization of atomically precise clusters. Apart from that, techniques such as ion mobility, tandem MS, etc. reveal structural details of these systems. Growth, nucleation, and reactivity of clusters are also probed by MS. Some of the recent advancements in this field include the development of new hyphenated techniques. Finer structural details may be obtained by coupling MS with spectroscopic tools, such as photoelectron spectroscopy, vacuum ultraviolet spectroscopy, etc. With such advancements in instrumentation, MS can evolve into a universal tool for the characterization of materials. The present review captures highlights of this area.

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Interparticle Reactions: An Emerging Direction in Nanomaterials Chemistry

Cited by 93 publications

References 59 publications

Metal–Ligand Interface in the Chemical Reactions of Ligand-Protected Noble Metal Clusters

Metal–Ligand Interface in the Chemical Reactions of Ligand-Protected Noble Metal Clusters

Bonding and properties of superatoms. Analogs to atoms and molecules and related concepts from superatomic clusters

The emerging interface of mass spectrometry with materials

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