Recent Advances in Silica-Based Materials for the Removal of Hexavalent Chromium: A Review

Dinker, Manish Kumar; Kulkarni, Prashant S.

doi:10.1021/acs.jced.5b00292

Cited by 120 publications

(82 citation statements)

References 177 publications

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“…Generally speaking, ionosilicas are highly efficient anion exchange materials displaying high adsorption capacity compared to other silica based anion exchange materials (Table ). In their review, Dinker and Kulkarni reported chromate adsorption capacities up to 1.8 mmol g −1 using organically functionalized silica materials . Here, we show that highly performant ionosilica materials displaying chromate exchange capacities up to 2.5 mmol g −1 can easily be obtained, in large scale, via very simple and straightforward synthesis and work‐up procedures.…”

Section: Resultsmentioning

confidence: 57%

Simple and Straightforward Synthesis of Porous Ionosilica for Efficient Chromate Adsorption

Sauvanier

Ferlin

et al. 2018

Israel Journal of Chemistry

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We report a very simple synthesis strategy for the formation of moderately porous ionosilica materials containing ammonium groups. We synthesized an ionosilica xerogel and an ionosilica aerogel, either via conventional or supercritical work‐up. The synthesis scheme of both precursor and ionosilica materials could easily be up‐scaled to a 100 g scale. All syntheses and work‐up procedures are sustainable as no additional agent and very low quantities of solvents were used, and no additional purifications steps were necessary. Although both materials show excellent anion exchange properties for chromate adsorption, noticeable differences were found regarding the thermodynamics of the exchange process. We attribute these differences to different surface chemistries of the materials, induced by the different work‐up procedures. Due to the easy availability of high quantities of material, ionosilicas can be implemented as functional ion exchange materials in larger scale processes, thus opening new fields of applications.

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Section: Resultsmentioning

confidence: 57%

Simple and Straightforward Synthesis of Porous Ionosilica for Efficient Chromate Adsorption

Sauvanier

Ferlin

et al. 2018

Israel Journal of Chemistry

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“…In adsorption process, Chromium (VI) ion from the aqueous solutions moves towards the adsorbent surface due to the electrostatic interaction or a chemical reaction (Dinker & Kulkarni, 2015). Adsorption is an essential and economical process for the removal of Chromium (VI) from the water and industrial wastewater; as for its many advantages: i.e., low energy demand, availability, easy operation, high removal efficiency, less chemical investment, and reusability (Dinker & Kulkarni, 2015). The process of adsorption is continued till the Chromium (VI) which is present in the solution to obtain equilibrium with the adsorbent.…”

Section: Chromium Adsorptionmentioning

confidence: 99%

Remediation techniques applied for aqueous system contaminated by toxic Chromium and Nickel ion

Kumar

Balouch

Pathan

et al. 2017

Geology, Ecology, and Landscapes

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Heavy metals contamination in environment is a global problem. Environment is polluted by different toxic metals due to industrial sources and anthropogenic activities. Variety of methodologies has been applied for the purification of waste water. Thus, article mainly focuses on the current developments and applicability of various wastewater treatment techniques, i.e., adsorption, membrane filtration, ion exchange, electrochemical treatment and electrocoagulation. Also, development of new adsorbents especially selective adsorbent, i.e., ion imprinted polymeric materials for selective removal and pre-concentration of toxic Nickel (II) and Chromium (VI) ions has been discussed in detail.

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“…Chromium, on the other hand is present in our surroundings in two forms: trivalent [Cr (III)] and hexavalent [Cr (VI)]. Cr (VI) is about five hundred times more noxious than [Cr (III)] due to its ability to oxidize additional species . Innumerable industries responsible for introduction of excess Cr with wastewater including leather and tanning, pigments synthesis dyeing and textile, paint, metal processing and finishing, pulp, and paper industries, alloys and steel manufacturing and electroplating, etc ,.…”

Section: Introductionmentioning

confidence: 99%

“…Cr (VI) is about five hundred times more noxious than [Cr (III)] due to its ability to oxidize additional species . Innumerable industries responsible for introduction of excess Cr with wastewater including leather and tanning, pigments synthesis dyeing and textile, paint, metal processing and finishing, pulp, and paper industries, alloys and steel manufacturing and electroplating, etc ,. The direct contact with Cr (VI) can cause eyes infection, allergy, asthma, dermatitis and skin irritation including burns .…”

Section: Introductionmentioning

confidence: 99%

Single and Binary Adsorption of Zn (II) and Cr (VI) Heavy Metals onto Synthesized Silica ‐Based MCM‐41

2019

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Effluents from numerous Industries like textile, paint, pharmaceutical, steel and electroplating industries liberate both Zinc [Zn (II)] and Chromium [Cr (VI)] heavy metals. In this work, adsorptive interaction of toxic Zn (II) heavy metal in aqueous solution with synthesized mesoporous silica based MCM‐41 was investigated. Further, the effects of presence of Cr (VI) heavy metal on the adsorption of Zn (II) and vice versa were investigated by simultaneous competitive binary adsorption from Cr (VI) and Zn (II) aqueous binary solution. Batch experiments were executed to see the effects of parameters like pH, adsorbent dose (m), adsorbate concentration and adsorption time (t). Optimum conditions for Zn (II) treatment were obtained as: initial pH (pHi) =7, m=0.1 g/L and t=2 h. Competitive adsorption of both Cr (VI) and Zn (II) from their binary solution was studied at 288− 308 K temperatures. Obtained equilibrium data were then fitted to different competitive multicomponent isotherm models like Langmuir (extended), Freundlich isotherm (extended), Sheindrof‐Rebuhn‐Sheintuch (SRS) isotherm and Redlich‐Peterson isotherm (modified) models, and various isotherm interaction parameters were calculated.

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Recent Advances in Silica-Based Materials for the Removal of Hexavalent Chromium: A Review

Cited by 120 publications

References 177 publications

Simple and Straightforward Synthesis of Porous Ionosilica for Efficient Chromate Adsorption

Simple and Straightforward Synthesis of Porous Ionosilica for Efficient Chromate Adsorption

Remediation techniques applied for aqueous system contaminated by toxic Chromium and Nickel ion

Single and Binary Adsorption of Zn (II) and Cr (VI) Heavy Metals onto Synthesized Silica ‐Based MCM‐41

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