Nexus between polymer support and metal oxide nanoparticles in hybrid nanosorbent materials (HNMs) for sorption/desorption of target ligands

Smith, Ryan C.; Li, Jinze; Padungthon, Surapol; SenGupta, Arup K.

doi:10.1007/s11783-015-0795-9

Cited by 22 publications

(6 citation statements)

References 31 publications

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“…The group of polymeric/inorganic composites based on ion exchangeable reactive polymers, also called hybrid ion exchangers (HIXs), is significantly prospective due to the presence of different active components such as a metal deposit and positively or negatively charged functional groups of supporting polymers [24][25][26][27][28]. The dispersion of NPs within the matrix of such a host material not only prevents their agglomeration and ensures contact between the reagents, but it also, owing to many possible combinations of hybrid polymers' components, enables one to develop multifunctional materials, which frequently exhibit synergetic effects.…”

Section: Introductionmentioning

confidence: 99%

Size-Controlled Transformation of Cu2O into Zero Valent Copper within the Matrix of Anion Exchangers via Green Chemical Reduction

et al. 2020

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Composite materials containing zero valent copper (ZVC) dispersed in the matrix of two commercially available strongly basic anion exchangers with a macroreticular (Amberlite IRA 900Cl) and gel-like (Amberlite IRA 402OH) structure were obtained. Cu0 particles appeared in the resin phase as the product of the reduction of the precursor, i.e., copper oxide(I) particles previously deposited in the two supporting materials. As a result of a one-step transformation of preformed Cu2O particles as templates conducted using green reductant ascorbic acid and under mild conditions, macroporous and gel-type hybrid products containing ZVC were obtained with a total copper content of 7.7 and 5.3 wt%, respectively. X-ray diffraction and FTIR spectroscopy confirmed the successful transformation of the starting oxide particles into a metallic deposit. A scanning electron microscopy study showed that the morphology of the deposit is mainly influenced by the type of matrix exchanger. In turn, the drying steps were crucial to its porosity and mechanical resistance. Because both the shape and size of copper particles and the internal structure of the supporting solid materials can have a decisive impact on the potential applications of the obtained materials, the results presented here reveal a great possibility for the design and synthesis of functional nanocrystalline solids.

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Section: Introductionmentioning

confidence: 99%

Size-Controlled Transformation of Cu2O into Zero Valent Copper within the Matrix of Anion Exchangers via Green Chemical Reduction

et al. 2020

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“…and 7a-c), especially where the HZrO nano-precipitates are present compared to the HFO nano-precipitates (Figure 6c) which occur in more concentric orientation Smith et al (2015). reports in the instances when anion exchange resin beads are used as host materials for HFOs and HZrO anions in the groundwater such as F -, As(V)increasingly drawn inside the bead allowing sorption onto the HFO and HZrO nanoparticles.…”

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confidence: 92%

“…These beads are durable as no physical or chemical degradation of the Haix-Zr resin beads have been observed after regeneration (Padungthon et al, 2015). By combining these metal oxide nano-particles of hydrated iron oxides with the chemically and mechanically stable polymeric ion exchange resins, a synergistic effect is created from enhancing the ligand sorption affinity of HFO and HZrO which is assisted by the Donnan membrane effect (Smith et al, 2015). Additional batch tests should be carried-out to validate this point.…”

Section: Introductionmentioning

confidence: 99%

Arsenic and fluoride removal from contaminated drinking water with Haix-Fe-Zr and Haix-Zr resin beads

Phillips

Gupta

Mukhopadhyay³

et al. 2018

Journal of Environmental Management

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The objective of the study was to carry-out batch tests to examine the effectiveness of Haix-Fe-Zr and Haix-Zr resin beads in the removal of As(III), As(V) and Ffrom groundwater with a similar geochemistry to a site where a community-based drinking water plant has been installed in West Bengal, India. The groundwater was spiked separately with ~200g/L As(III) and As(V) and 5mg/L F-. Haix-Zr resin beads were more effective than Haix-Fe-Zr resin beads in removing As(III) and As(V). Haix-Zr resin beads showed higher removal of As(V) compared to As(III). Haix-Zr resin beads removed As(V) below the WHO

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“…Embedding of the waste sludge in the porous matrix of organic polymers leads to obtaining hybrid materials composed of a macromolecular skeleton and inorganic deposit. Due to the combination of the properties of both constituents, it is possible to obtain a sorbent exhibiting high mechanical strength and advantageous hydraulic properties ensured by a porous polymeric matrix, simultaneously showing high adsorptive properties characteristic for inorganic oxides (Cumbal et al 2003; Sarkar et al 2012; Samiey et al 2014; Smith et al 2015). However, the majority of hybrid polymers was synthesized by in situ methods based on sol–gel processes starting with the introduction of precursors (metal salts) into the preformed polymer matrix containing functional groups enabling even distribution of the metal precursor and followed by hydrolysis occurring within the polymeric matrix.…”

Section: Introductionmentioning

confidence: 99%

Optimization of hybrid polymer preparation by ex situ embedding of waste Fe/Mn oxides into chitosan matrix as an effective As(III) and As(V) sorbent

Ociński

2019

Environ Sci Pollut Res

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A hybrid polymer for deep removal of arsenic from aqueous solutions was obtained by loading of waste Fe/Mn oxides into a chitosan matrix. The process was optimized by studying the influence of selected individual factors and their reciprocal combinations on the adsorptive and physical properties of the product. The influence of chitosan solution concentration, inorganic load amount, the ratio of Fe/Mn oxides to chitosan, and polymer cross-linking degree on kinetics of As(III) and As(V) adsorption was examined. The optimal values of the parameters were chitosan polymer concentration 1.5% w / w , inorganic load to chitosan ratio 1.67, and glutaraldehyde to chitosan amine groups molar ratio 3:1. The selected products were evaluated in terms of their morphology (scanning electron microscopy (SEM) with EDS analysis), porosity (N 2 and CO 2 adsorption isotherms), surface properties (Fourier-transform infrared spectroscopy (FTIR), isoelectric point determination) and durability in an acidic environment. The proposed process makes it possible to obtain a product combining beneficial adsorptive properties toward arsenic with the physical form and durability essential in fixed-bed adsorption systems. Electronic supplementary material The online version of this article (10.1007/s11356-019-05856-x) contains supplementary material, which is available to authorized users.

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Nexus between polymer support and metal oxide nanoparticles in hybrid nanosorbent materials (HNMs) for sorption/desorption of target ligands

Cited by 22 publications

References 31 publications

Size-Controlled Transformation of Cu2O into Zero Valent Copper within the Matrix of Anion Exchangers via Green Chemical Reduction

Size-Controlled Transformation of Cu2O into Zero Valent Copper within the Matrix of Anion Exchangers via Green Chemical Reduction

Arsenic and fluoride removal from contaminated drinking water with Haix-Fe-Zr and Haix-Zr resin beads

Optimization of hybrid polymer preparation by ex situ embedding of waste Fe/Mn oxides into chitosan matrix as an effective As(III) and As(V) sorbent

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