A review of the removal of anions and oxyanions of the halogen elements from aqueous solution by layered double hydroxides

Theiss, Frederick L.; Couperthwaite, Sara J.; Ayoko, Godwin A.; Frost, Ray L.

doi:10.1016/j.jcis.2013.11.040

Cited by 202 publications

(75 citation statements)

References 37 publications

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“…LDH has been demonstrated as a promising carrier for drug delivery, according to its expandable interlayer space, low cytotoxicity, and high biocompatibility 12, 13, 14, 15. Our team's previous research has already confirmed that layered double hydroxide loaded with etoposide (LDH‐VP16) is very effective in inhibiting A549 cell migration and invasion in vitro via the mTOR/AKT and STAT pathways 16.…”

Section: Introductionmentioning

confidence: 89%

Anti‐Metastatic and Anti‐Angiogenic Activities of Core–Shell SiO₂@LDH Loaded with Etoposide in Non‐Small Cell Lung Cancer

Zhu

Wang

et al. 2016

Advanced Science

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Currently, nanoparticles have gained a great attention in the anti‐tumor research area. However, to date, studies on the anti‐metastasis action of core–shell SiO2@LDH (LDH: layered double hydroxide) nanoparticles remain untouched. Two emerging aspects considered are establishing research on the controlling delivery effect of SiO2@LDH combined with anti‐cancer medicine from a new perspective. The fine properties synthetic SiO2@LDH‐VP16 (VP16: etoposide) are practiced to exhibit the nanoparticle's suppression on migration and invasion of non‐small cell lung cancer (NSCLC). Both in vitro and in vivo inspection shows that SiO2@LDH can help VP16 better function as an anti‐metastasis agent. On the other hand, anti‐angiogenic efficiency, co‐localization, as well as western blot are investigated to explain the possible mechanism. A clear mergence of SiO2@LDH‐VP16 and cytomembrane/microtubule may be observed from co‐location images. Results offer evidence that SiO2@LDH‐VP16 plays positions on cytomembrane and microtubules. It efficiently inhibits metastasis on NSCLC by reducing vascularization, and eliciting depression of the PI3K‐AKT and FAK‐Paxillin signaling pathways. SiO2@LDH‐VP16, the overall particle morphology, and function on anti‐metastasis and anti‐angiogenic may be tuned to give new opportunities for novel strategies for cancer therapy.

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Section: Introductionmentioning

confidence: 89%

Anti‐Metastatic and Anti‐Angiogenic Activities of Core–Shell SiO₂@LDH Loaded with Etoposide in Non‐Small Cell Lung Cancer

Zhu

Wang

et al. 2016

Advanced Science

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“…Many reports indicate high fluoride content exist in drinking water in many countries like China, Russia, Pakistan, South Africa [1][2][3]. Use of drinking water containing high concentration of fluoride can cuse dental fluorosis, nervous system diseases, and even cancer [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

“…and have been regarded as effective adsorbent in reducing the contents of excessive anions, including fluoride [12,[16][17][18]. LDHs are composed of alternating stacked cationic layers and interlayer compensation anions.…”

Section: Introductionmentioning

confidence: 99%

“…The basic structural formula is: M and M 3+ represent divalent and trivalent cations, respectively, and A n-represents an n-valent anion. Typical LDHs are Mg 6 Al 2 (OH) 16 CO 3 2-·4H 2 O, which have a structure similar to brucite Mg(OH) 2 , and consist of Mg 2+ and Al 3+ ions on both sides, with CO 3 2-anion and water molecules in that middle, like sandwich bread. LDHs own a large interlayer surface, which can capture all kinds of different exchangeable anionic species, provide it high removal efficiency of anionic compounds.…”

Section: Introductionmentioning

confidence: 99%

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Uptake Fluoride from Water by Starch Stabilized Layered Double Hydroxide

Liu¹,

Yue²,

Lu³

et al. 2018

Preprint

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A novel starch stabilized Mg/Al LDHs material (S-LDH) was prepared in a facile approach and its fluoride ion removal performance was developed. Characterization of S-LDH was employed by using XRD, FTIR and particle size distribution. The adsorption property was studied through the assessment of adsorption isotherms, kinetic models, thermal dynamics and pH influence. The result shows that a low loading of starch of 10 mg onto LDH could obviously improve fluoride removal rate. The S-LDH had 3 times higher adsorption capacity to fluoride than that of Mg/Al LDH to fluoride. The particle size was smaller and the particle size distribution was narrower for S-LDH than that for Mg/Al LDH. Langmuir adsorption isotherm model and pseudo-second-order kinetic model fitted well with the experimental data. In thermodynamic parameters, the enthalpy (△H 0 ) value was 35.63 kJ mol -1 and the entropy (△S 0 ) value was 0.0806 kJ mol -1 K -1 . The values of △G 0 were negative, implying the adsorption process is spontaneous. S-LDH reveals stable adsorption property in a wide pH range from 3 to 9. The mechanism for fluoride adsorption on S-LDH included surface adsorption and interaction ion exchange.

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“…[17][18][19][20] There is an increasing attention for these materials owing to their several applications in many fields such as catalysis, removal of waste agents from water, stabilizers and rheology modifiers, preparation of pigments, pharmaceutical and cosmetic formulations, symptomatic treatment of peptic ulcer and therapy of digestive disorders, drug and biomolecule hosts, organic-inorganic NCs. [20][21][22][23][24][25][26][27][28][29][30] High-performance polymers are good candidates as matrices in NCs due to their excellent properties, namely high thermal stability, stiffness, flame retardancy, strength, thermo-oxidative stability, toughness, high conductivity, chemical and solvent resistance, low dielectric constant, retained properties at very high temperatures, and long storage periods. [31][32][33][34] Poly(amide-imide)s (PAI)s are one of the most successful classes of high-performance polymers.…”

Section: Introductionmentioning

confidence: 99%

A facile and simple synthetic strategy for the preparation of modified NiAl-layered double hydroxide as nanofiller for L-phenylalanine containing poly(amide-imide)s based nanocomposites

Mallakpour

Dinari

Nabiyan

2015

Designed Monomers and Polymers

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In this article, we reported a facile and effective strategy for assembling hybrid diacid-modified NiAl-layered double hydroxide (LDH) and poly(amide-imide)/modified NiAl-LDHs nanocomposites (PAI/LDH NCs) under ultrasonic irradiation. An optically active amino acid containing PAI was prepared by direct polycondensation reaction of N,N′-(pyromellitoyl)-bis-L-phenylalanine and 4,4′-diaminodiphenylsulfone in molten tetrabutylammonium bromide. NiAl-LDH intercalated with biosafe amino acid containing dicarboxylate was synthesized in one step by co-precipitation method under ultrasonic irradiation. The materials have been characterized by X-ray diffraction, Fourier transform infrared spectroscopy, field emission scanning electron microscopy (FE-SEM), transmission electron microscopy (TEM), and thermogravimetry analysis techniques. The homogeneous dispersion of NiAl-LDH in the PAI matrices was observed by TEM and FE-SEM techniques. The results of the thermal analysis show an improvement in the thermal behavior of the PAI/LDH NCs in comparison with the neat polymer.

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A review of the removal of anions and oxyanions of the halogen elements from aqueous solution by layered double hydroxides

Cited by 202 publications

References 37 publications

Anti‐Metastatic and Anti‐Angiogenic Activities of Core–Shell SiO₂@LDH Loaded with Etoposide in Non‐Small Cell Lung Cancer

Anti‐Metastatic and Anti‐Angiogenic Activities of Core–Shell SiO₂@LDH Loaded with Etoposide in Non‐Small Cell Lung Cancer

Uptake Fluoride from Water by Starch Stabilized Layered Double Hydroxide

A facile and simple synthetic strategy for the preparation of modified NiAl-layered double hydroxide as nanofiller for L-phenylalanine containing poly(amide-imide)s based nanocomposites

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A review of the removal of anions and oxyanions of the halogen elements from aqueous solution by layered double hydroxides

Cited by 202 publications

References 37 publications

Anti‐Metastatic and Anti‐Angiogenic Activities of Core–Shell SiO2@LDH Loaded with Etoposide in Non‐Small Cell Lung Cancer

Anti‐Metastatic and Anti‐Angiogenic Activities of Core–Shell SiO2@LDH Loaded with Etoposide in Non‐Small Cell Lung Cancer

Uptake Fluoride from Water by Starch Stabilized Layered Double Hydroxide

A facile and simple synthetic strategy for the preparation of modified NiAl-layered double hydroxide as nanofiller for L-phenylalanine containing poly(amide-imide)s based nanocomposites

Contact Info

Product

Resources

About

Anti‐Metastatic and Anti‐Angiogenic Activities of Core–Shell SiO₂@LDH Loaded with Etoposide in Non‐Small Cell Lung Cancer

Anti‐Metastatic and Anti‐Angiogenic Activities of Core–Shell SiO₂@LDH Loaded with Etoposide in Non‐Small Cell Lung Cancer