Bioprocess development for biosorption of cobalt ions and Congo red from aquatic mixture using Enteromorpha intestinalis biomass as sustainable biosorbent

AbstractBecause of the increased amount of cobalt and Congo red dye effluents attributable to the industrial operations, the capacity of Enteromorpha intestinalis biomass as a sustainable source to achieve significant biosorption percent for both pollutants from dual solution was assessed. A fifty batch FCCCD experiments for biosorption of cobalt ions and Congo red dye were performed. The complete removal of Congo red dye was obtained at 36th run using an initial pH value of 10, 1.0 g/L of Enteromorpha intestinalis biomass, 100 and 200 mg/L of Congo red and cobalt for a 20-min incubation time. Meanwhile, a cobalt removal percent of 85.22 was obtained at 35th run using a neutral pH of 7.0, 3.0 g/L of algal biomass, 150 and 120 mg/L of Congo red, and cobalt for a 60-min incubation time. For further illustration and to interpret how the biosorption mechanism was performed, FTIR analysis was conducted to inspect the role of each active group in the biosorption process, it can be inferred that –OH, C–H, C=O, O–SO3- and C–O–C groups were mainly responsible for Co2+ adsorption of from aqueous dual solution. Also, scan electron microscope revealed the appearance of new shiny particles biosorbed on E. intestinalis surface after the biosorption process. EDS analysis proved the presence of Co2+ on the algal surface after the biosorption process.

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Eco-friendly approach for biosorption of Pb2+ and carcinogenic Congo red dye from binary solution onto sustainable Ulva lactuca biomass

Scientific Reports ◽

10.1038/s41598-020-73031-1 ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Noura El-Ahmady El-Naggar ◽

Nashwa H. Rabei ◽

Sahar E. El-Malkey

Keyword(s):

Organic Contaminants ◽

Congo Red ◽

Algal Biomass ◽

Morphological Changes ◽

Binary Solution ◽

Sem Analysis ◽

Ulva Lactuca ◽

Congo Red Dye ◽

Biosorption Process ◽

Red Dye

Abstract Dyes constitute an important group of organic contaminants and are recognized for its harmful effects on the aquatic environments and humans. Heavy metals are also the largest group of inorganic pollutants due to their accumulation in the environment, contaminate food chains and cause adverse effects on the living organisms. Biosorption capacity of Ulva lactuca biomass was assessed in batch experiments for simultaneous removal of Pb2+ and Congo red dye from binary solution. The process variables effects on Congo red dye and Pb2+ removal percentages were explored by performing 50 experiments using Face-centered central composite design. The highest removal percentages of Congo red dye (97.89%) and Pb2+ (98.78%) were achieved in the run no. 24, using 100 mg/L Congo red dye, 200 mg/L Pb2+, 3 g/L algal biomass, initial pH 6 and contact time was 120 min at 30 °C. FTIR analysis of the algal biomass showed the existence of many functional groups responsible for the biosorption process. After the biosorption process, SEM analysis revealed obvious morphological changes including surface shrinkage and the presence of new glossy Pb2+ particles, and the EDS spectra reveals presence of additional Pb2+ peak confirming the capacity of Ulva lactuca biomass to remove Pb2+ from binary solution.

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An effective method for determining the retention and distribution of cellulose nanofibrils in paper handsheets by dye labeling

TAPPI Journal ◽

10.32964/tj17.03.157 ◽

2018 ◽

Vol 17 (03) ◽

pp. 157-164 ◽

Cited By ~ 3

Author(s):

Shengdan Wang ◽

Wenhua Gao ◽

Kefu Chen ◽

Jinsong Zeng ◽

Jun Xu ◽

...

Keyword(s):

Correlation Coefficient ◽

Congo Red ◽

Kraft Pulp ◽

Cellulose Nanofibrils ◽

Standard Curve ◽

Congo Red Dye ◽

Mechanical Disintegration ◽

Softwood Kraft Pulp ◽

White Water ◽

Red Dye

Cellulose nanofibrils (CNF) were prepared by cellulase in conjunction with mechanical disintegration from the bleached softwood kraft pulp and labelled by Congo red dye. The labelled CNF were used to investigate the retention and distribution of CNF in paper handsheets. The retention of the labelled CNF was obtained by measuring the absorbance of white water using an ultraviolet-visible spectrophotometer. The results showed that this method for measuring the retention was rapid, feasible, and sensitive, owing to the high correlation coefficient R2 (0.9993) of the standard curve. The labelled CNF showed even distribution in paper handsheets. The colorimetric values of paper handsheets were explored with a residual ink analyzer.

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Degradation of Congo Red Dye in Aqueous Solution by Using Phytoremediation Potential of Chara Vulgaris

Chitkara Chemistry Review ◽

10.15415/ccr.2013.11005 ◽

2013 ◽

Vol 1 (1) ◽

pp. 67-75 ◽

Cited By ~ 7

Author(s):

Pooja Mahajan ◽

Jyotsna Kaushal

Keyword(s):

Aqueous Solution ◽

Congo Red ◽

Chara Vulgaris ◽

Congo Red Dye ◽

Red Dye

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Catalytic influence of iron loaded sba-15 for the photodegradation of congo red dye

International Journal of Pharma and Bio Sciences ◽

10.22376/ijpbs.2017.8.1.p118-124 ◽

2017 ◽

Vol 8 (1) ◽

Author(s):

A.R. SASIEEKHUMA R ◽

T.SOMANATHA N ◽

M. SHANMUGA M

Keyword(s):

Congo Red ◽

Congo Red Dye ◽

Red Dye

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Functionalization of Congo red dye as a light harvester on solar cell

Open Chemistry ◽

10.1515/chem-2020-0034 ◽

2020 ◽

Vol 18 (1) ◽

pp. 287-294

Author(s):

Harsasi Setyawati ◽

Handoko Darmokoesoemo ◽

Irmina Kris Murwani ◽

Ahmadi Jaya Permana ◽

Faidur Rochman

Keyword(s):

Solar Cell ◽

Congo Red ◽

Large Scale ◽

High Efficiency ◽

Solar Cell Device ◽

Dye Sensitized ◽

Congo Red Dye ◽

Elemental Analyses ◽

Red Dye ◽

Solar Cell Technology

AbstractThe demands of ecofriendly technologies to produce a reliable supply of renewable energy on a large scale remains a challenge. A solar cell based on DSSC (Dye-Sensitized Solar Cell) technology is environmentally friendly and holds the promise of a high efficiency in converting sunlight into electricity. This manuscript describes the development of a light harvester system as a main part of a DSSC. Congo red dye has been functionalized with metals (Fe, Co, Ni), forming a series of complexes that serve as a novel light harvester on the solar cell. Metal-congo red complexes have been characterized by UV-VIS and FTIR spectroscopy, and elemental analyses. The performance of metal complexes in capturing photons from sunlight has been investigated in a solar cell device. The incorporation of metals to congo red successfully improved of the congo red efficiency as follows: Fe(II)-congo red, Co(II)-congo red and Ni(II)-congo red had efficiencies of 8.17%, 6.13% and 2.65%, respectively. This research also discusses the effect of metal ions on the ability of congo red to capture energy from sunlight.

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