Knitting the Catalytic Pattern of Artificial Photosynthesis to a Hybrid Graphene Nanotexture

Quintana, Mildred; López, Alejandro Montellano; Rapino, Stefania; Toma, Francesca M.; Iurlo, Matteo; Carraro, Mauro; Sartorel, Andrea; Maccato, Chiara; Ke, Xiaoxing; Bittencourt, Carla; Ros, Tatiana Da; Tendeloo, Gustaaf Van; Marcaccio, Massimo; Paolucci, Francesco; Prato, Maurizio; Bonchio, Marcella

doi:10.1021/nn305313q

Cited by 95 publications

(102 citation statements)

References 42 publications

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“…These compounds consist of anionic transition metal molecular oxides where the transition metals present high oxidation states. 69 This configuration has attracted the interest of different scientific areas and can be applied in catalysis, 70 energy conversion, 71 and molecular electronics. 72 The basal structure of these materials consists of a tetrahedral nucleus surrounded by twelve MO 6 octahedral units that share their edges and vertices.…”

Section: Phosphomolybdic Acidmentioning

confidence: 99%

Electrochemical Systems for Renewable Energy Conversion from Salinity and Proton Gradients

Morais¹,

Lima²,

Gomes³

et al. 2018

J. Braz. Chem. Soc.

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Ever-rising energy demand, fossil fuel dependence, and climate issues have harmful consequences to the society. Exploring clean and renewable energy to diversify the world energy matrix has become an urgent matter. Less explored or unexplored renewable energy sources like the salinity and proton gradient energy are an attractive alternative with great energy potential. This paper discusses important electrochemical systems for energy conversion from natural and artificial concentration gradients, namely capacitive mixing (CapMix), mixing entropy batteries (MEB), and neutralization batteries (NB); the working principle and thermodynamic formalism of these systems; and the materials employed in the assembly of these systems.

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Section: Phosphomolybdic Acidmentioning

confidence: 99%

Electrochemical Systems for Renewable Energy Conversion from Salinity and Proton Gradients

Morais¹,

Lima²,

Gomes³

et al. 2018

J. Braz. Chem. Soc.

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“…Generation of positive charges onto the CNT surface was also carried out by covalent grafting of 2-aminoethylammonium chloride allowing the immobilization of an oxygen-evolving tetra-ruthenium polyoxometalate affording a nanomaterial for electrocatalytic water splitting [246]. This strategy was then extended to few layer graphene that was functionalized by covalent addition of 4-amino-N,N,N-trimethylbenzene ammonium [247] or with a tailored distribution of polycationic, quaternized, ammonium, using a first generation polyaminoamide dendron [248], yielding an innovative FLG platforms with positive charges to immobilize inorganic polyanions.…”

Section: Supportmentioning

confidence: 99%

Coordination chemistry on carbon surfaces

Axet¹,

Dechy‐Cabaret²,

Durand³

et al. 2016

Coordination Chemistry Reviews

100

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“…3,5−10 This strategy has also been recently applied to surface-modified graphene. 11 POMs may also be immobilized successfully into materials through various other strategies 12 such as their encapsulation into metal−organic frameworks (MOFs), 13,14 their intercalation into layered double hydroxides, 15 or their one-pot embedding into a silica matrix via co-condensation sol−gel methods 16 (including the covalent grafting of vacant POMs into the walls of hybrid supports). 17,18 We recently focused on the elaboration of new mesoporous materials functionalized with nucleophilic (vacant) POMs for applications in the field of anchored homogeneous catalysis.…”

Section: Introductionmentioning

confidence: 99%

Efficiency of Polyoxometalate-Based Mesoporous Hybrids as Covalently Anchored Catalysts

et al. 2015

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Polyoxometalate (POM) hybrids have been covalently immobilized through the formation of amide bonds on several types of mesoporous silica. This work allows the comparison of three POM-based mesoporous systems, obtained with three different silica supports in which either the organic functions of the support (amine vs carboxylic acid) and/or the structure of the support itself (SBA-15 vs mesocellular foams (MCF)) were varied. The resulting POM-based mesoporous systems have been studied in particular by high resolution transmission electronic microscopy (HR-TEM) in order to characterize the nanostructuration of the POMs inside the pores/cells of the different materials. We thus have shown that the best distribution and loading in POMs have been reached with SBA-15 functionalized with aminopropyl groups. In this case, the formation of amide bonds in the materials has led to the nonaggregation of the POMs inside the channels of the SBA-15. The catalytic activity of the anchored systems has been evaluated through the epoxidation of cyclooctene and cyclohexene with H2O2 in acetonitrile. The reactivity of the different grafted POMs hybrids has been compared to that in solution (homogeneous conditions). Parallels can be drawn between the distribution of the POMs and the activity of the supported systems. Furthermore, recycling tests together with catalyst filtration experiments during the reaction allowed us to preclude the hypothesis of a significant leaching of the supported catalyst.

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Knitting the Catalytic Pattern of Artificial Photosynthesis to a Hybrid Graphene Nanotexture

Cited by 95 publications

References 42 publications

Electrochemical Systems for Renewable Energy Conversion from Salinity and Proton Gradients

Electrochemical Systems for Renewable Energy Conversion from Salinity and Proton Gradients

Coordination chemistry on carbon surfaces

Efficiency of Polyoxometalate-Based Mesoporous Hybrids as Covalently Anchored Catalysts

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