Chromium Monitoring in Water by Colorimetry Using Optimised 1,5-Diphenylcarbazide Method

Lace, Annija; Ryan, David; Bowkett, Mark; Cleary, John

doi:10.3390/ijerph16101803

Cited by 136 publications

(54 citation statements)

References 63 publications

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“…The concentration of Cr was analyzed in waster sample through UV spectrophotometer (Shimadzu A90 UV-visible spectrophotometer; Shimadzu, Kyoto, Japan) using DPC method [ 26 ]. Diphenyl carbazide (DPC; Sigma-Aldrich, St. Louis, MO, USA) solution was prepared by dissolving 0.25 g DPC in 50 mL of acetone, which is used for complexation of Cr ions in this method.…”

Section: Experimental Workmentioning

confidence: 99%

Utilization of Tires Waste-Derived Magnetic-Activated Carbon for the Removal of Hexavalent Chromium from Wastewater

et al. 2020

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The present study focuses on fabrication of magnetic activated carbon (M-AC) using tire waste and its potential investigation for adsorption of Cr (VI) from wastewater. The composite material (M-AC) was synthesized by pyrolysis followed by in situ magnetization method, and characterized by FTIR, FESEM, EDX, and XRD analysis. The maximum adsorption of Cr (VI) ion over composite adsorbent was found (~99.5%) to occur at pH 2, sample volume 10 mL, adsorbent dose 100 mg, contact time 30 min. The adsorption process was endothermic, feasible, spontaneous, and was found to follow pseudo second order of the reaction. The Cr ion could be completely desorbed (~99.3%) from the composite adsorbent by using 20 mL of 2 M NaOH solution. The composite adsorbent was regenerated by continuous adsorption and desorption for 5 consecutive cycles by using 10 mL 0.1 M HCl solution. M-AC also performed well in case of tannery wastewater by removing about 97% of Cr (VI).

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Section: Experimental Workmentioning

confidence: 99%

Utilization of Tires Waste-Derived Magnetic-Activated Carbon for the Removal of Hexavalent Chromium from Wastewater

et al. 2020

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“…According to the World Health Organization (WHO), the maximum permissible limits of Cr(VI) in drinking water is 0.05 mg/L 14 . Chromium cannot be biodegraded easily and therefore chromium exceeds the permissible limit accumulated in the food chain and become destructive to human health.…”

Section: Introductionmentioning

confidence: 99%

Bioprocessing strategies for cost-effective simultaneous removal of chromium and malachite green by marine alga Enteromorpha intestinalis

Hamouda

El‐Naggar

Doleib

et al. 2020

Sci Rep

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A large number of industries use heavy metal cations to fix dyes in fabrication processes. Malachite green (MG) is used in many factories and in aquaculture production to treat parasites, and it has genotoxic and carcinogenic effects. Chromium is used to fix the dyes and it is a global toxic heavy metal. Face centered central composite design (FCCCD) has been used to determine the most significant factors for enhanced simultaneous removal of MG and chromium ions from aqueous solutions using marine green alga Enteromorpha intestinalis biomass collected from Jeddah beach. The dry biomass of E. intestinalis samples were also examined using SEM and FTIR before and after MG and chromium biosoptions. The predicted results indicated that 4.3 g/L E. intestinalis biomass was simultaneously removed 99.63% of MG and 93.38% of chromium from aqueous solution using a MG concentration of 7.97 mg/L, the chromium concentration of 192.45 mg/L, pH 9.92, the contact time was 38.5 min with an agitation of 200 rpm. FTIR and SEM proved the change in characteristics of algal biomass after treatments. The dry biomass of E. intestinalis has the capacity to remove MG and chromium from aquatic effluents in a feasible and efficient manner.

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“…All eighteen bacteria were screened for the reduction of hexavalent chromium at various concentrations (200–1200 ppm) of potassium dichromate by the diphenylcarbazide colorimetric method [10] . Out of eighteen bacteria, only one bacterium designated strain KNP showed the hexavalent chromium reduction up to concentrations of 1000 ppm.…”

Section: Experimental Design Materials and Methodsmentioning

confidence: 99%

Draft genome sequence data of a chromium reducing bacterium, Bacillus licheniformis strain KNP

et al. 2021

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A chromium-reducing bacterium designated as strain KNP was isolated from a sample collected from a tannery effluent of Kanpur, India. Phylogenetic analysis based on the 16S rRNA gene sequences revealed that strain KNP belonged to the Bacillus genus and showed 100% similarity with Bacillus licheniformis . Furthermore, average nucleotide identity and digital DNA-DNA hybridization between strain KNP and its closely related strains confirmed its affiliation with Bacillus licheniformis species . Whole-genome sequencing of Bacillus licheniformis KNP was performed using the Illumina Hiseq platform. Here, we present the draft genome sequence of Bacillus licheniformis KNP. The total size of the draft assembly was 4,280,093 bp, distributed into 21 contigs with an N50 value of 4,186,229. The genome has 45.9% G + C content, 4255 coding sequences and 86 putative RNA genes. This Whole Genome Shotgun project has been deposited at DDBJ/ENA/GenBank under the accession JACDXS000000000. The version described in this paper is version JACDXS010000000.

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Chromium Monitoring in Water by Colorimetry Using Optimised 1,5-Diphenylcarbazide Method

Cited by 136 publications

References 63 publications

Utilization of Tires Waste-Derived Magnetic-Activated Carbon for the Removal of Hexavalent Chromium from Wastewater

Utilization of Tires Waste-Derived Magnetic-Activated Carbon for the Removal of Hexavalent Chromium from Wastewater

Bioprocessing strategies for cost-effective simultaneous removal of chromium and malachite green by marine alga Enteromorpha intestinalis

Draft genome sequence data of a chromium reducing bacterium, Bacillus licheniformis strain KNP

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