Silk Fibroin/Orange Peel Foam: An Efficient Biocomposite for Water Remediation

Campagnolo, Laura; Morselli, Davide; Magrì, Davide; Scarpellini, Alice; Demirci, Cansunur; Colombo, Massimo; Athanassiou, Athanassia; Fragouli, Despina

doi:10.1002/adsu.201800097

Cited by 23 publications

(12 citation statements)

References 56 publications

(84 reference statements)

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“…Complementary information obtained by combining nitrogen physisorption and MIP measurements on the two types of foams is essential for the quantification of the specific surface area and the more precise pore size distribution study in each case. , With the MIP technique, the macropore structures can be analyzed (under 110 μm), while this method is not suitable for the characterization of pore sizes below 0.01 μm. Therefore, for smaller pores, the nitrogen physisorption technique is adopted in order to investigate the structural characteristics of the pores in the microscopic (<2 nm) and mesoscopic (2–50 nm) ranges .…”

Section: Results and Discussionmentioning

confidence: 99%

Expanded Graphite-Polyurethane Foams for Water–Oil Filtration

Vásquez

Campagnolo

Athanassiou

et al. 2019

ACS Appl. Mater. Interfaces

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Herein, expanded graphite is successfully combined with waterborne polyurethane to develop porous foams with underwater oleophobic properties for the separation of surfactant-free, oil-in-water mixtures and emulsions. To obtain foams with different pore sizes and therefore with different performances in the oil−water filtration process, two solvent-free fabrication processes are adopted. In the first one, the expanded graphite granules are mixed with the waterborne polyurethane (PUEGr), and in the second method, calcium carbonate is introduced to the two-component mixture (PUEGr_t). In both cases, the obtained foams exhibit hydrophilicity and oleophilicity in air and oleophobicity underwater, and they have porous interconnected networks, while their pore size distribution differs significantly. The foams can be used as 3D filters, able to separate, through gravity, surfactant-free, oil-in-water mixtures (10% w/w oil in water) with high oil rejection efficiencies and flow rates that depend on the type of foam. In particular, in the gravitydriven filtration process using 100 mL of the feed liquid, the PUEGr foams have an oil rejection efficiency of 96.85% and flow rate of 9988 L m −2 h −1 , while for the PUEGr_t foams the efficiency is higher (99.99%) and the flow rate is lower (8547 L m −2 h −1 ) due to their smaller pore size. Although the PUEGr_t foams have slower separation performance, they are more efficient for the separation of surfactant-free emulsions (1% w/w oil in water) reaching an oil rejection efficiency of 98.28%, higher than the 95.66% of the PUEGr foams of the same thickness. The foams can be used for several filtration cycles, as well as in harsh conditions without deteriorating their performance. The nature of raw materials, the simple solvent-free preparation method, the effective gravity-driven filtration even in harsh conditions, and their reusability suggest that the herein engineered foams have great potential for practical applications in oil−water separation through highly energy-efficient filtration.

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Section: Results and Discussionmentioning

confidence: 99%

Expanded Graphite-Polyurethane Foams for Water–Oil Filtration

Vásquez

Campagnolo

Athanassiou

et al. 2019

ACS Appl. Mater. Interfaces

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“…42 Many techniques have been followed to fabricate such hybrid materials into device form such as vacuum filtration, 43 layer-by-layer deposition, 44 drop casting, 45 and spin coating. 46 Each of these materials can be made into foam, 47 powder-based membranes 48 or bead form 33 with specific characteristics as a result of their mutually beneficial properties as mentioned earlier among the nanomaterials and synthetic membranes. The inimitable properties and efficiency of these hybrid materials will be discussed in the following sections.…”

Section: Functional Nanomaterials and Composite-based Devicesmentioning

confidence: 99%

Nanocomposite-based high-performance adsorptive water filters: recent advances, limitations, nanotoxicity and environmental implications

Kamath

Mruthunjayappa

Mondal

et al. 2022

Environ. Sci.: Nano

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“…[ 1,3 ] Especially when a highly porous structure is required, the complexity of the conventional foaming and electrospinning techniques and the large number of parameters that influence them makes the scale‐up process particularly difficult. [ 5 ] As a valuable alternative to those techniques, the simple evaporation of a polymer solution in a suitable solvent that can result in self‐assembled porous structures has been recently reported. [ 6,7 ] Specifically, it was observed that solvent−polymer interaction, polymer concentration, and evaporation rate are key factors to control dimension and morphology of the pores.…”

Section: Figurementioning

confidence: 99%

Self‐Assembled PMMA Porous Membranes Decorated with In Situ Synthesized ZnO Nanoparticles with UV‐Tunable Wettability

Esposti

Fabbri

Morselli

2020

Macro Materials & Eng

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This study reports a simple approach to fabricate porous poly(methyl methacrylate) (PMMA) membranes homogeneously decorated with exposed zinc oxide (ZnO) nanoparticles (NPs). This fabrication method significantly overcomes the disadvantages of both conventional foaming processes and incorporation of inorganic NPs in polymeric matrices. In particular, the porous structure is simply self‐assembled by slowly evaporating a suitable solvent. The ZnO NPs are in situ formed by a thermally activated conversion of the zinc acetate precursor, previously embedded in the polymeric matrix. Scanning and transmission electron microscopy investigations show the formation of the desired self‐assembled highly porous structure and ZnO NPs with branched morphology, respectively. The wetting behavior of the membranes surface is studied as a function of the ZnO content and UV irradiation, exploiting the switchable wettability of ZnO. The obtained unexpected results are then tentatively rationalized taking into account the surface chemistry and the roughness that arises from both porous structure and the different NPs dimensions and content.

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Silk Fibroin/Orange Peel Foam: An Efficient Biocomposite for Water Remediation

Cited by 23 publications

References 56 publications

Expanded Graphite-Polyurethane Foams for Water–Oil Filtration

Expanded Graphite-Polyurethane Foams for Water–Oil Filtration

Nanocomposite-based high-performance adsorptive water filters: recent advances, limitations, nanotoxicity and environmental implications

Self‐Assembled PMMA Porous Membranes Decorated with In Situ Synthesized ZnO Nanoparticles with UV‐Tunable Wettability

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