Dimethyl carbonate: a versatile reagent for a sustainable valorization of renewables

Fiorani, Giulia; Perosa, Alvise; Selva, Maurizio

doi:10.1039/c7gc02118f

Cited by 211 publications

(125 citation statements)

References 165 publications

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“…[42] The oxidationo fp ropylene to PO (Scheme2,r oute c) can be carried out by am ore environmentally friendly process employing at itaniums ilicate catalyst( TS-1) and hydrogen peroxide as the oxidant. [48] The synthesis of DMC from EC and methanol has been highlighted as most sustainable among several possible routes in terms of global warming impact. [44] It hasb een proposed that am ore sustainable synthesis of EC could be carried out by starting from bioethanol (i.e.,e thanol produced from biomass) followed by its dehydration [45] to afford bio-ethylene (Scheme 2, route d).…”

Section: Unfunctionalized Cyclic Carbonatesmentioning

confidence: 99%

“…To note, EC can react with methanol to afford DMC (Scheme 2, route f), which is ab enign and nontoxic carbonylation reagent. [48] The synthesis of DMC from EC and methanol has been highlighted as most sustainable among several possible routes in terms of global warming impact. [1c] Unfunctionalized saturated carbonates can be used for the synthesis of polymers by nucleophilic ring opening with diamines leading to bis-hydroxycarbamates as starting materials for isocyanatefree polyester polyurethanes.…”

Section: Unfunctionalized Cyclic Carbonatesmentioning

confidence: 99%

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Polymers Based on Cyclic Carbonates as Trait d'Union Between Polymer Chemistry and Sustainable CO₂ Utilization

et al. 2019

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Given the large amount of anthropogenic CO2 emissions, it is advantageous to use CO2 as feedstock for the fabrication of everyday products, such as fuels and materials. An attractive way to use CO2 in the synthesis of polymers is by the formation of five‐membered cyclic organic carbonate monomers (5CCs). The sustainability of this synthetic approach is increased by using scaffolds prepared from renewable resources. Indeed, recent years have seen the rise of various types of carbonate syntheses and applications. 5CC monomers are often polymerized with diamines to yield polyhydroxyurethanes (PHU). Foams are developed from this type of polymers; moreover, the additional hydroxyl groups in PHU, absent in classical polyurethanes, lead to coatings with excellent adhesive properties. Furthermore, carbonate groups in polymers offer the possibility of post‐functionalization, such as curing reactions under mild conditions. Finally, the polarity of carbonate groups is remarkably high, so polymers with carbonates side‐chains can be used as polymer electrolytes in batteries or as conductive membranes. The target of this Review is to highlight the multiple opportunities offered by polymers prepared from and/or containing 5CCs. Firstly, the preparation of several classes of 5CCs is discussed with special focus on the sustainability of the synthetic routes. Thereafter, specific classes of polymers are discussed for which the use and/or presence of carbonate moieties is crucial to impart the targeted properties (foams, adhesives, polymers for energy applications, and other functional materials).

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Section: Unfunctionalized Cyclic Carbonatesmentioning

confidence: 99%

Section: Unfunctionalized Cyclic Carbonatesmentioning

confidence: 99%

Polymers Based on Cyclic Carbonates as Trait d'Union Between Polymer Chemistry and Sustainable CO₂ Utilization

et al. 2019

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“…It is not even necessary to separate the unreacted DMC, since it can be used as an additive for fossil diesel, due to the high oxygen content of the molecule. In fact, the DMC is attracting the interest of researchers due to the increasing importance of environmental and resource issues to the realization of a sustainable society through a green chemistry activity development [243][244][245][246][247][248][249].…”

Section: Biodiesel-like Biofuels That Integrate the Glycerol As Glycementioning

confidence: 99%

Biodiesel at the Crossroads: A Critical Review

et al. 2019

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The delay in the energy transition, focused in the replacement of fossil diesel with biodiesel, is mainly caused by the need of reducing the costs associated to the transesterification reaction of vegetable oils with methanol. This reaction, on an industrial scale, presents several problems associated with the glycerol generated during the process. The costs to eliminate this glycerol have to be added to the implicit cost of using seed oil as raw material. Recently, several alternative methods to convert vegetable oils into high quality diesel fuels, which avoid the glycerol generation, are being under development, such as Gliperol, DMC-Biod, or Ecodiesel. Besides, there are renewable diesel fuels known as “green diesel”, obtained by several catalytic processes (cracking or pyrolysis, hydrodeoxygenation and hydrotreating) of vegetable oils and which exhibit a lot of similarities with fossil fuels. Likewise, it has also been addressed as a novel strategy, the use of straight vegetable oils in blends with various plant-based sources such as alcohols, vegetable oils, and several organic compounds that are renewable and biodegradable. These plant-based sources are capable of achieving the effective reduction of the viscosity of the blends, allowing their use in combustion ignition engines. The aim of this review is to evaluate the real possibilities that conventional biodiesel has in order to success as the main biofuel for the energy transition, as well as the use of alternative biofuels that can take part in the energy transition in a successful way.

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“…In connection to the wide-ranging interests of our group in developing biomass-derived platform chemicals [21][22][23][24][25][26], we recently reported a fundamental study on the photoreduction of methyl viologen using a set of citric acid-derived CDs, paving the way towards the rational design of carbon-nanoparticles for efficient photocatalytic organic transformations [27]. These studies demonstrated that the carbon-nitrogen source, the synthetic method, and the resulting structural properties strongly affect the electrochemical properties of CDs and thus their photo-reactivity.…”

Section: Introductionmentioning

confidence: 99%

Precursor-Dependent Photocatalytic Activity of Carbon Dots

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This work systematically compares both structural features and photocatalytic performance of a series of graphitic and amorphous carbon dots (CDs) prepared in a bottom-up manner from fructose, glucose, and citric acid. We demonstrate that the carbon source and synthetic procedures diversely affect the structural and optical properties of the CDs, which in turn unpredictably influence their photo electron transfer ability. The latter was evaluated by studying the photo-reduction of methyl viologen. Overall, citric acid-CDs were found to provide the best photocatalytic performance followed by fructose- and glucose-CDs. However, while the graphitization of glucose- and citric acid-CDs favored the photo-reaction, a reverse structure–activity dependence was observed for fructose-CDs due to the formation of a large graphitic-like supramolecular assembly. This study highlights the complexity to design in advance photo-active bio-based carbon nanomaterials.

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Dimethyl carbonate: a versatile reagent for a sustainable valorization of renewables

Cited by 211 publications

References 165 publications

Polymers Based on Cyclic Carbonates as Trait d'Union Between Polymer Chemistry and Sustainable CO₂ Utilization

Polymers Based on Cyclic Carbonates as Trait d'Union Between Polymer Chemistry and Sustainable CO₂ Utilization

Biodiesel at the Crossroads: A Critical Review

Precursor-Dependent Photocatalytic Activity of Carbon Dots

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Dimethyl carbonate: a versatile reagent for a sustainable valorization of renewables

Cited by 211 publications

References 165 publications

Polymers Based on Cyclic Carbonates as Trait d'Union Between Polymer Chemistry and Sustainable CO2 Utilization

Polymers Based on Cyclic Carbonates as Trait d'Union Between Polymer Chemistry and Sustainable CO2 Utilization

Biodiesel at the Crossroads: A Critical Review

Precursor-Dependent Photocatalytic Activity of Carbon Dots

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Product

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Polymers Based on Cyclic Carbonates as Trait d'Union Between Polymer Chemistry and Sustainable CO₂ Utilization

Polymers Based on Cyclic Carbonates as Trait d'Union Between Polymer Chemistry and Sustainable CO₂ Utilization