Bimetallic cluster complexes: synthesis, structures and applications to catalysis

Adams, Richard D.; Captain, Burjor

doi:10.1016/j.jorganchem.2004.08.001

Cited by 76 publications

(48 citation statements)

References 73 publications

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“…In qualitative terms we know that ruthenium is effective in activating molecular hydrogen and that palladium readily activates an olefinic bond. Furthermore, the recent work of Adams et al [53,54] sheds some light on this general question. In their study of Pt-Ru carbonyl clusters, they found explicit evidence that Pt-Ru bonds are directly implicated in catalytic hydrogenation reactions (of alkynes such as substituted acetylenes).…”

Section: Individual Isolated Bimetallic Clusters As Single-site Hetmentioning

confidence: 99%

Single‐Site Heterogeneous Catalysts

2005

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Intellectually, the advantages that flow from the availability of single-site heterogeneous catalysts (SSHC) are many. They facilitate the determination of the kinetics and mechanism of catalytic turnover-both experimentally and computationally-and make accessible the energetics of various intermediates (including short-lived transition states). These facts in turn offer a rational strategic principle for the design of new catalysts and the improvement of existing ones. It is generally possible to prepare soluble molecular fragments that circumscribe the single-site, thus enabling a direct comparison to be made, experimentally, between the catalytic performance of the same active site when functioning as a heterogeneous (continuous solid) as well as a homogeneous (dispersed molecular) catalyst. This approach also makes it possible to modify the immediate atomic environment as well as the central atomic structure of the active site. From the practical standpoint, SSHC exhibit very high selectivities leading to the production of sharply defined molecular products, just as do their homogeneous analogues. Given that mesoporous silicas with very large internal surface areas are ideal supports for SSHC, and that more than a quarter of the elements of the Periodic Table may be grafted as active sites onto such silicas, there is abundant scope for creating new catalytic opportunities.

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Section: Individual Isolated Bimetallic Clusters As Single-site Hetmentioning

confidence: 99%

Single‐Site Heterogeneous Catalysts

2005

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“…Растворимые в органических растворителях кластерные соединения переходных метал-лов являются перспективными объектами для гомогенного окислительно-восстановительного катализа и хорошими моделями для изучения аналогичных процессов, происходящих на гете-рогенных катализаторах [1][2][3][4][5][6][7][8][9][10][11][12]. Благодаря наличию обобщенной системы электронов металло-полиэдры сохраняются во многих химических и электрохимических реакциях с их участием [8,[13][14][15].…”

Section: Introductionunclassified

“…Способность кластеров давать серии обратимых одноэлектронных переходов без разрушения структуры металлоостова, как и другие свойства кластеров, зависят от их строе-ния. Особый интерес представляют гетерометаллические комплексы и кластеры, потенциаль-но более перспективные с точки зрения каталитических свойств, особенно в асимметрическом катализе, по сравнению с аналогичными гомометаллическими комплексами [7][8][9][10][11][16][17][18][19]. На-личие в таких кластерах гетерометаллических металл-металл связей приводит к увеличению полярности молекул и повышению их каталитической активности.…”

Section: Introductionunclassified

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Redox Properties of Heterometallic Osmium Cluster Compounds

Burmakina¹,

Rubaylo²,

Кирин³

et al. 2016

J. Sib. Fed. Univ. Chem.

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“…Therefore, metal clusters can be expected, in principle, to combine the positive aspects of homogeneous and heterogeneous catalytic reactions and, perhaps more importantly, they may react through unique pathways associated with the cluster structures and thereby catalyze reactions not accessible by mononuclear or heterogeneous catalysts. Nevertheless, despite the impressive amount of work that has been devoted to develop these concepts over several decades, the great expectations first advanced during the mid-1970s have not yet been fully accomplished [1][2][3][4][5][6].From a different perspective, well-defined metal clusters have served as useful models for discerning the complex mechanisms of heterogeneous catalytic systems. The structural trends for metal clusters are now well understood, and their reactions in solution can be studied in detail by relatively simple chemical and spectroscopic methods, thereby producing important information at the molecular level -something that is very difficult to achieve on solid catalysts.…”

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Homogeneous Hydrogenation by Defined Metal Clusters

Sánchez‐Delgado¹

2006

The Handbook of Homogeneous Hydrogenation

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The catalytic potential of well-defined transition-metal clusters in homogeneous reactions has attracted a great deal of attention over the years, as they represent a natural bridge between mononuclear complexes, metal nanoparticles, and metal-oxide, -sulfide and related surfaces used in heterogeneous catalysis. The molecular nature of metal clusters, together with their solubility properties, provides the advantages of classical mononuclear homogeneous catalysts (high activity, high selectivity, moderate operating conditions, possibility of catalyst design and modification), while the polynuclear framework can offer the possibility of multi-metallic cooperative effects often identified as a key element in the desirable properties of solid heterogeneous catalysts. Therefore, metal clusters can be expected, in principle, to combine the positive aspects of homogeneous and heterogeneous catalytic reactions and, perhaps more importantly, they may react through unique pathways associated with the cluster structures and thereby catalyze reactions not accessible by mononuclear or heterogeneous catalysts. Nevertheless, despite the impressive amount of work that has been devoted to develop these concepts over several decades, the great expectations first advanced during the mid-1970s have not yet been fully accomplished [1][2][3][4][5][6].From a different perspective, well-defined metal clusters have served as useful models for discerning the complex mechanisms of heterogeneous catalytic systems. The structural trends for metal clusters are now well understood, and their reactions in solution can be studied in detail by relatively simple chemical and spectroscopic methods, thereby producing important information at the molecular level -something that is very difficult to achieve on solid catalysts. The knowledge thus gained from studying metal cluster chemistry can be extrapolated, with adequate caution, to heterogeneous reactions [1][2][3][4][5][6].Another trend that has received considerable recent attention is the decomposition of metal clusters under controlled conditions on solid supports or on liquid suspensions, which generates small metallic particles of specific size, struc- 199The Handbook of Homogeneous Hydrogenation. Edited by J. G. de Vries and C. J. Elsevier

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Bimetallic cluster complexes: synthesis, structures and applications to catalysis

Cited by 76 publications

References 73 publications

Single‐Site Heterogeneous Catalysts

Single‐Site Heterogeneous Catalysts

Redox Properties of Heterometallic Osmium Cluster Compounds

Homogeneous Hydrogenation by Defined Metal Clusters

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