Recent Advances on Porous Siliceous Materials Derived from Waste
In recent years, significant efforts have been made in view of a transition from a linear to a circular economy, where the value of products, materials, resources, and waste is maintained as long as possible in the economy. The re-utilization of industrial and agricultural waste into value-added pro...
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| Veröffentlicht in: | Materials 2023-08, Vol.16 (16), p.5578 |
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| creator | Montini, Daniele Cara, Claudio D’Arienzo, Massimiliano Di Credico, Barbara Mostoni, Silvia Nisticò, Roberto Pala, Luca Scotti, Roberto |
| description | In recent years, significant efforts have been made in view of a transition from a linear to a circular economy, where the value of products, materials, resources, and waste is maintained as long as possible in the economy. The re-utilization of industrial and agricultural waste into value-added products, such as nanostructured siliceous materials, has become a challenging topic as an effective strategy in waste management and a sustainable model aimed to limit the use of landfill, conserve natural resources, and reduce the use of harmful substances. In light of these considerations, nanoporous silica has attracted attention in various applications owing to the tunable pore dimensions, high specific surface areas, tailorable structure, and facile post-functionalization. In this review, recent progress on the synthesis of siliceous materials from different types of waste is presented, analyzing the factors influencing the size and morphology of the final product, alongside different synthetic methods used to impart specific porosity. Applications in the fields of wastewater/gas treatment and catalysis are discussed, focusing on process feasibility in large-scale productions. |
| doi_str_mv | 10.3390/ma16165578 |
| format | Article |
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The re-utilization of industrial and agricultural waste into value-added products, such as nanostructured siliceous materials, has become a challenging topic as an effective strategy in waste management and a sustainable model aimed to limit the use of landfill, conserve natural resources, and reduce the use of harmful substances. In light of these considerations, nanoporous silica has attracted attention in various applications owing to the tunable pore dimensions, high specific surface areas, tailorable structure, and facile post-functionalization. In this review, recent progress on the synthesis of siliceous materials from different types of waste is presented, analyzing the factors influencing the size and morphology of the final product, alongside different synthetic methods used to impart specific porosity. 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| subjects | Agricultural pollution Agricultural production Agricultural wastes Agriculture Bibliometrics Catalysis Chemicals Circular economy Conservation of natural resources Environmental impact Industrial wastes Nanomaterials Natural resources Porous materials Protection and preservation Refuse and refuse disposal Review Rice United Kingdom Waste management Wastewater treatment |
| title | Recent Advances on Porous Siliceous Materials Derived from Waste |
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