Immobilized Palladium Nanoparticles on Zirconium Carboxy-Aminophosphonates Nanosheets as an Efficient Recoverable Heterogeneous Catalyst for Suzuki–Miyaura and Heck Coupling

Kozell, Vadym; Giannoni, Tommaso; Nocchetti, Morena; Vivani, Riccardo; Piermatti, Oriana; Vaccaro, Luigi

doi:10.3390/catal7060186

Cited by 33 publications

(33 citation statements)

References 52 publications

(97 reference statements)

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“…Compared with the γ-Al2O3 pellets encapsulated with ASMA, intensities of the diffraction peaks of the samples after loading with palladium decrease obviously, which might be caused by the changes in the charge distribution and electrostatic field because of the existence of palladium nanoparticles and interaction with the surface of support [26]. The characteristic peaks at 40.2° and 46.8° can be attributed to the (111) and (200) planes of Pd, respectively [27]. However, the supports treated with ASMA encapsulation and morpholine modification did not show significant changes of crystality.…”

Section: Catalyst Characterizationmentioning

confidence: 96%

Morpholine-Modified Pd/γ-Al2O3@ASMA Pellet Catalyst with Excellent Catalytic Selectivity in the Hydrogenation of p-Chloronitrobenzene to p-Chloroaniline

Wang

Thapa

et al. 2017

Catalysts

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An amino poly (styrene-co-maleic anhydride) polymer (ASMA) encapsulated γ-Al 2 O 3 pellet material has been synthesized successfully. After loading with Pd species and modified with morpholine, the inorganic-organic hybrid material shows an excellent catalytic property in the selective hydrogenation of p-chloronitrobenzene (p-CNB) to p-chloroaniline (p-CAN). In this procedure, morpholine can connect with the polymer layer in a form of amide bond and acts as an unparalleled immobilized dechlorination inhibitor, which can avoid further dechlorination efficiently and keeps stability due to the repulsive effect from the surviving C-O-C bond. The catalyst as prepared was characterized by using XRD, TGA, SEM, TEM, FT-IR, and ICP-OES, and it was further tested in the selective hydrogenation of p-CNB. It shows a supreme catalytic activity (almost 100%) and selectivity (up to 99.51%) after recycling for even 10 times, much superior to the blank alumina supported palladium (47.09%).

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Section: Catalyst Characterizationmentioning

confidence: 96%

Morpholine-Modified Pd/γ-Al2O3@ASMA Pellet Catalyst with Excellent Catalytic Selectivity in the Hydrogenation of p-Chloronitrobenzene to p-Chloroaniline

Wang

Thapa

et al. 2017

Catalysts

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“…Importantly, the minimal leaching of Pd and no significant nanoparticle sintering were observed, suggesting the effectiveness of the support in binding the catalytically active species. The same catalyst was later successfully employed also for the hydrogenation in batch conditions of alkynes and nitroarenes [109] and for the Heck reaction [110], proving its wide applicability. dispersion led to the coordination of the metal to the non-coordinating carboxylic and phosphonic acid groups and enabled the deposition of palladium nanoparticles with size <2 nm onto the nanosheets with variable loadings, with the highest being reported at 19 wt.…”

Section: Catalysismentioning

confidence: 99%

“…Importantly, the minimal leaching of Pd and no significant nanoparticle sintering were observed, suggesting the effectiveness of the support in binding the catalytically active species. The same catalyst was later successfully employed also for the hydrogenation in batch conditions of alkynes and nitroarenes [109] and for the Heck reaction [110], proving its wide applicability. More recently, a new strategy was adopted to obtain a zirconium phosphate-phosphonate decorated with very small gold nanoparticles on its surface [111].…”

Section: Catalysismentioning

confidence: 99%

New Directions in Metal Phosphonate and Phosphinate Chemistry

et al. 2019

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In September 2018, the First European Workshop on Metal Phosphonates Chemistry brought together some prominent researchers in the field of metal phosphonates and phosphinates with the aim of discussing past and current research efforts and identifying future directions. The scope of this perspective article is to provide a critical overview of the topics discussed during the workshop, which are divided into two main areas: synthesis and characterisation, and applications. In terms of synthetic methods, there has been a push towards cleaner and more efficient approaches. This has led to the introduction of high-throughput synthesis and mechanochemical synthesis. The recent success of metal–organic frameworks has also promoted renewed interest in the synthesis of porous metal phosphonates and phosphinates. Regarding characterisation, the main advances are the development of electron diffraction as a tool for crystal structure determination and the deployment of in situ characterisation techniques, which have allowed for a better understanding of reaction pathways. In terms of applications, metal phosphonates have been found to be suitable materials for several purposes: they have been employed as heterogeneous catalysts for the synthesis of fine chemicals, as solid sorbents for gas separation, notably CO2 capture, as materials for electrochemical devices, such as fuel cells and rechargeable batteries, and as matrices for drug delivery.

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“…They obtained a wide substrate scope and high conversion under mild reaction conditions within only a short residence time (20 s) . As mentioned above, several immobilized Pd catalysts have been investigated for application to flow reactions . However, the type of catalyst that is most suitable for continuous‐flow cross‐coupling reactions remains unclear because it is difficult to directly compare catalytic performance owing to differences in substrates and reaction conditions .…”

Section: Figurementioning

confidence: 99%

“…[21] As mentioned above, several immobilized Pd catalysts have been investigated for application to flow reactions. [22][23][24][25][26][27][28] However, the type of catalyst that is most suitable for continuous-flow crosscoupling reactions remains unclear because it is difficult to directly compare catalytic performance owing to differences in substrates and reaction conditions. [8] Therefore, we propose herein a consistent method for evaluating the catalytic performance of immobilized catalysts.…”

Section: Readily Available Immobilized Pd Catalysts For Suzuki-miyaurmentioning

confidence: 99%

Readily Available Immobilized Pd Catalysts for Suzuki‐Miyaura Coupling under Continuous‐flow Conditions

et al. 2019

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Highly efficient immobilized catalysts for continuous‐flow cross‐coupling reactions that show better productivity than those for the corresponding batch reactions are increasingly in demand. For practical use, such catalysts should have highly catalytic activity and high leaching resistance. To find catalysts suitable for continuous‐flow conditions, we have developed a consistent method for evaluating the catalytic performance of commercially available immobilized Pd catalysts. Monitoring of the change in turnover frequency over time under excess substrate loading conditions revealed the limitation of these catalysts. On the basis of the evaluation results, we have successfully developed a new immobilized Pd catalyst that exhibited highly efficient and robust catalytic performance.

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Immobilized Palladium Nanoparticles on Zirconium Carboxy-Aminophosphonates Nanosheets as an Efficient Recoverable Heterogeneous Catalyst for Suzuki–Miyaura and Heck Coupling

Cited by 33 publications

References 52 publications

Morpholine-Modified Pd/γ-Al2O3@ASMA Pellet Catalyst with Excellent Catalytic Selectivity in the Hydrogenation of p-Chloronitrobenzene to p-Chloroaniline

Morpholine-Modified Pd/γ-Al2O3@ASMA Pellet Catalyst with Excellent Catalytic Selectivity in the Hydrogenation of p-Chloronitrobenzene to p-Chloroaniline

New Directions in Metal Phosphonate and Phosphinate Chemistry

Readily Available Immobilized Pd Catalysts for Suzuki‐Miyaura Coupling under Continuous‐flow Conditions

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