Carbon-Doped TiO 2 Nanofiltration Membranes Prepared by Interfacial Reaction of Glycerol with TiCl 4 Vapor
In the pursuit of developing advanced nanofiltration membranes with high permeation flux for organic solvents, a TiO nanofilm was synthesized via a vapor-liquid interfacial reaction on a flat-sheet α-Al O ceramic support. This process involves the reaction of glycerol, an organic precursor with a st...
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Veröffentlicht in: | Membranes (Basel) 2024-11, Vol.14 (11) |
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Hauptverfasser: | , , , , |
Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | In the pursuit of developing advanced nanofiltration membranes with high permeation flux for organic solvents, a TiO
nanofilm was synthesized via a vapor-liquid interfacial reaction on a flat-sheet α-Al
O
ceramic support. This process involves the reaction of glycerol, an organic precursor with a structure featuring 1,2-diol and 1,3-diol groups, with TiCl
vapor to form organometallic hybrid films. Subsequent calcination in air at 250 °C transforms these hybrid films into carbon-doped titanium oxide nanofilms. The unique structure of glycerol plays a crucial role in determining the properties of the resulting nanopores, which exhibit high solvent permeance and effective solute rejection. The synthesized carbon-doped TiO
nanofiltration membranes demonstrated impressive performance, achieving a pure methanol permeability as high as 90.9 L·m
·h
·bar
. Moreover, these membranes exhibited a rejection rate of 93.2% for Congo Red in a methanol solution, underscoring their efficacy in separating solutes from solvents. The rigidity of the nanopores within these nanofilms, when supported on ceramic materials, confers high chemical stability even in the presence of polar solvents. This robustness makes the carbon-doped TiO
nanofilms suitable for applications in the purification and recovery of organic solvents. |
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ISSN: | 2077-0375 2077-0375 |