Citric acid modified cellulose: a cost effective adsorbent for the immobilization of Cr (III) ions from the aqueous phase

Phytoremediation is a cost-effective and environmentally friendly approach that can be used for the remediation of metals in polluted soil. This study used a hedge plant–calico (Alternanthera bettzickiana (Regel) G. Nicholson) to determine the role of citric acid in lead (Pb) phytoremediation by exposing it to different concentrations of Pb (0, 200, 500, and 1000 mg kg−1) as well as in a combination with citric acid concentration (0, 250, 500 µM). The analysis of variance was applied on results for significant effects of the independent variables on the dependent variables using SPSS (ver10). According to the results, maximum Pb concentration was measured in the upper parts of the plant. An increase in dry weight biomass, plant growth parameters, and photosynthetic contents was observed with the increase of Pb application (200 mg kg−1) in soil while a reduced growth was experienced at higher Pb concentration (1000 mg kg−1). The antioxidant enzymatic activities like superoxide dismutase (SOD) and peroxidase (POD) were enhanced under lower Pb concentration (200, 500 mg kg−1), whereas the reduction occurred at greater metal concentration Pb (1000 mg kg−1). There was a usual reduction in electrolyte leakage (EL) at lower Pb concentration (200, 500 mg kg−1), whereas EL increased at maximum Pb concentration (1000 mg kg−1). We concluded that this hedge plant, A. Bettzickiana, has the greater ability to remediate polluted soils aided with citric acid application.

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Established an eco-friendly cotton fabric treating process with enhancing anti-wrinkle performance

Journal of Engineered Fibers and Fabrics ◽

10.1177/15589250211003454 ◽

2021 ◽

Vol 16 ◽

pp. 155892502110034

Author(s):

Xiongfang Luo ◽

Pei Cheng ◽

Wencong Wang ◽

Jiajia Fu ◽

Weidong Gao

Keyword(s):

Tensile Strength ◽

Citric Acid ◽

Cotton Fabric ◽

Crosslinking Agent ◽

Cost Effective ◽

Waterborne Polyurethane ◽

Cotton Fabrics ◽

Wrinkle Resistance ◽

Before And After ◽

Strength Retention

This study establishes an eco-friendly anti-wrinkle treating process for cotton fabric. Sodium hydroxide-liquid ammonia pretreatment followed by 6% (w/w) PU100 adding citric acid pad-cure-dry finishing. In this process, citric acid (CA) was used as the fundamental crosslinking agent during finishing because it is a non-formaldehyde based, cost-effective and well wrinkle resistance agent. Environmental-friendly waterborne polyurethane (WPU) was used as an additive to add to the CA finishing solution. Six commercial WPUs were systematically investigated. Fabric properties like wrinkle resistance, tensile strength retention, whiteness, durable press, softness, and wettability were well investigated. Fourier transform infrared spectra and X-ray diffraction spectra were also measured and discussed before and after adding waterborne polyurethane. Tentative mechanism of the interaction among the WPU, CA, and modified cotton fabrics is provided. The effect of cotton fabric pretreatment on fabric performance was also investigated. After the eco-process’s treatment, the fabric wrinkle resistant angle was upgraded to 271 ± 7°, tensile strength retention was maintained at 66.77% ± 3.50% and CIE whiteness was elevated to 52.13 ± 3.21, which are much better than the traditional CA anti-wrinkle finishing based on mercerized cotton fabrics. This study provides useful information for textile researchers and engineers.

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Two-step demineralization of shrimp (Pandalus Borealis) shells using citric acid: An environmentally friendly, safe and cost-effective alternative to the traditional approach

Green Chemistry ◽

10.1039/d1gc03140f ◽

2021 ◽

Author(s):

Julia Pohling ◽

Deepika Dave ◽

Yi Liu ◽

Wade Murphy ◽

Sheila Trenholm

Keyword(s):

Citric Acid ◽

Hydrochloric Acid ◽

Environmental Health ◽

Traditional Approach ◽

Health And Safety ◽

Cost Effective ◽

Environmental Health And Safety ◽

Pandalus Borealis ◽

Chitin Extraction ◽

Cost Effective Alternative

Removal of minerals from crustacean shells during chitin extraction is traditionally achieved using hydrochloric acid. However, the environmental, health and safety concerns of hydrochloric acid have led to investigation of...

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Aspergillus piperis A/5 from plum-distilling waste compost produces a complex of antifungal metabolites active against the phytopathogen Pythium aphanidermatum

Archives of Biological Sciences ◽

10.2298/abs150602016j ◽

2016 ◽

Vol 68 (2) ◽

pp. 279-289 ◽

Cited By ~ 2

Author(s):

Jelena Jovicic-Petrovic ◽

Sanja Jeremic ◽

Ivan Vuckovic ◽

Sandra Vojnovic ◽

Aleksandra Bulajic ◽

...

Keyword(s):

Citric Acid ◽

Solvent Extraction ◽

Antifungal Activity ◽

Aqueous Phase ◽

Plant Pathogens ◽

Complex Mixture ◽

Pythium Aphanidermatum ◽

Disease Suppression ◽

Antifungal Metabolites ◽

Culture Extract

Adding compost to soil can result in plant disease suppression through the mechanisms of antagonistic action of compost microflora against plant pathogens. The aim of the study was to select effective antagonists of Pythium aphanidermatum from compost, to assess the effect of its extracellular metabolites on the plant pathogen, and to characterize antifungal metabolites. The fungal isolate selected by a confrontation test was identified as Aspergillus piperis A/5 on the basis of morphological features and the internal transcribed spacer (ITS) region, ?-tubulin and calmodulin partial sequences. Liquid chromatography-mass spectroscopy (LC-MS) analysis showed that gluconic and citric acid were the most abundant in the organic culture extract. However, the main antifungal activity was contained in the aqueous phase remaining after the organic solvent extraction. The presence of considerable amounts of proteins in both the crude culture extract as well as the aqueous phase remaining after solvent extraction was confirmed by SDS-PAGE. Isolated Aspergillus piperis A/5 exhibits strong antifungal activity against the phytopathogen Pythium aphanidermatum. It secretes a complex mixture of metabolites consisting of small molecules, including gluconic acid, citric acid and itaconic acid derivatives, but the most potent antifungal activity was associated with proteins resistant to heat and organic solvents. Our findings about the activity and characterization of antagonistic strain metabolites contribute to the understanding of the mechanism of interaction of antifungal metabolites as well as fungal-fungal interaction. The obtained results provide a basis for further application development in agriculture and food processing.

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Citric acid modified Ni3P as a catalyst for aqueous phase reforming and hydrogenolysis of glycerol to 1,2-PDO

New Journal of Chemistry ◽

10.1039/d1nj04179g ◽

2021 ◽

Author(s):

Tianyu Hu ◽

Zhiquan Yu ◽

Shan Liu ◽

Bingyu Liu ◽

Zhichao Sun ◽

...

Keyword(s):

Particle Size ◽

Citric Acid ◽

Aqueous Phase ◽

Small Particle ◽

Small Particle Size ◽

Temperature Programmed Reduction ◽

Aqueous Phase Reforming ◽

Temperature Programmed ◽

Co Precipitation

Citric acid (CA) modified Ni3P catalysts with small particle size were prepared by H2 temperature-programmed reduction (H2-TPR) of the precursors, which were prepared by co-precipitation with Ni(NO3)2·6H2O and (NH4)2HPO4, using...

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Prediction of Interaction of Citric Acid Modified Cellulose with Water Region Using Molecular Modelling Technique

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.797.118 ◽

2019 ◽

Vol 797 ◽

pp. 118-126

Author(s):

Nornizar Anuar ◽

Wan Nor Asyikin Wan Mohamed Daid ◽

Sopiah Ambong Khalid ◽

Sarifah Fauziah Syed Draman ◽

Siti Rozaimah Sheikh Abdullah

Keyword(s):

Hydrogen Bond ◽

Citric Acid ◽

Water Molecule ◽

Hydration Shell ◽

Computational Technique ◽

Water Molecules ◽

Ferric Ion ◽

Water Loading ◽

Higher Temperature ◽

Modified Cellulose

In this paper, chemically modified cellulose was used instead of cellulose as it offers higher adsorption capacities, great chemical strength and good resistance to heat. As part of Phyto-Adsorption Remediation Method, citric acid modified cellulose (CAMC) was used to treat ferric ion. However, there is a large possibility that CAMC molecule might interact with water molecule that contain hydrogen bond and hence pose as a competitor to ferric acid and reduces the efficiency of CAMC in ferric ion removal. Thus, the aim of this work is to identify the most stable hydrogen bond between CAMC and water, by using a computational technique. The interaction between the water molecules and CAMC was observed by varying the volume of water molecule with modified cellulose by an expansion in amorphous region. The simulation result shows that for water loading less than 20 molecules, the interaction between water molecules and CAMC is higher at temperature 311K, whilst for water loading higher than 20 molecules, the interaction weakens at higher temperature. This work proves that water molecules have the tendency to bind to carboxyl group of glucose, to oxygen of ester and to oxygen of anhydride acid of the CAMC molecule, which might pose a competition for ferric acid removal. The calculation of coordination number has shown that the number of atoms present in the first hydration shell (of radius < 2.5Å) is more as the temperature increases from 298K to 311K, which indicates that the adsorption is better at higher temperature. For hydration shell at radius >2.5Å, cell temperature is not significant to the number of atoms present.

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Citric Acid-Modified Cellulose-Based Tough and Self-Healable Composite Formed by Two Kinds of Noncovalent Bonding

ACS Applied Polymer Materials ◽

10.1021/acsapm.0c00250 ◽

2020 ◽

Vol 2 (6) ◽

pp. 2274-2283 ◽

Cited By ~ 1

Author(s):

Garry Sinawang ◽

Taka-aki Asoh ◽

Motofumi Osaki ◽

Hiroyasu Yamaguchi ◽

Akira Harada ◽

...

Keyword(s):

Citric Acid ◽

Noncovalent Bonding ◽

Modified Cellulose

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Plantics-GX: a biodegradable and cost-effective thermoset plastic that is 100% plant-based

Faraday Discussions ◽

10.1039/c7fd00054e ◽

2017 ◽

Vol 202 ◽

pp. 111-120 ◽

Cited By ~ 3

Author(s):

Albert H. Alberts ◽

Gadi Rothenberg

Keyword(s):

Citric Acid ◽

The Netherlands ◽

Real Life ◽

Cost Effective ◽

Degree Of Polymerisation ◽

Thermoset Resins ◽

Acid Ratio ◽

New Material ◽

Trade Names ◽

Molecular Components

We recount here the story of the discovery and invention of a family of thermoset resins that are fully biodegradable and plant-based. The resin is prepared by polymerising glycerol, the simplest trialcohol, with citric acid, the simplest abundantly available triacid. Mixing these two chemicals at moderate temperatures begins a multi-step esterification that results in a network-like resin foam. The hardness, brittleness, and toughness of this resin can be controlled by changing the alcohol : acid ratio, the temperature, and the presence of additives. Remarkably, this resin is fully biodegradable, breaking down to its molecular components in water. The degradation period can be varied from a few days to a few months, depending on the degree of polymerisation. We have prepared over 800 different formulations of this new material, which is now being produced on the ton scale by Plantics BV in The Netherlands under the trade names Glycix and Plantics-GX. This resin is made from inexpensive and widely available starting materials. It is 100% biobased, non-toxic and biodegradable. Thus, it has the potential to replace petro-based thermoset polymers and foams in a variety of real-life applications.

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Extraction of iron(III) from the citric medium by the toluene solution of trilaurylamine

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19803116 ◽

1980 ◽

Vol 45 (11) ◽

pp. 3116-3129 ◽

Cited By ~ 3

Author(s):

Petr Vaňura ◽

Libor Kuča

Keyword(s):

Citric Acid ◽

Ionic Strength ◽

Aqueous Phase ◽

Organic Phase ◽

Toluene Solution ◽

Constant Ionic Strength ◽

Extraction Constants ◽

Equilibrium Concentrations

The composition of Fe(III) complexes extracted from the aqueous phase of constant ionic strength (1M-(H3,Na3,Fe)A, where H3A denotes citric acid) by the toluene solution of trilaurylamine (TLA) has been determined and the respective extraction constants have been calculated. In the concentration range cFe < 10-2 mol l-1 FeA(TLA)2 and FeA(TLA)4(H3A)2-4 are the predominant complexes in the organic phase. The abundance of the (FeA)3(TLA)6(H3A)2 complex in the organic phase increases at higher equilibrium concentrations of Fe(III) in the aqueous phase and at higher concentrations of TLA.

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Extraction of Aluminum and Iron from Bauxite: A Unique Closed-Loop Ore Refining Process Utilizing Oxalate Chemistry

10.22541/au.162362374.48957826/v1 ◽

2021 ◽

Author(s):

Ankit Verma ◽

David Corbin ◽

Mark Shiflett

Keyword(s):

Aqueous Phase ◽

Energy Efficient ◽

Closed Loop ◽

Exchange Resin ◽

Cation Exchange Resin ◽

Cost Effective ◽

Extraction Process ◽

Aqueous Acid ◽

Potassium Hydrogen ◽

Bauxite Ore

The Bayer process holds an exclusive status for alumina extraction, but a massive amount of caustic “red mud” waste is generated. In this work, three oxalate reagents: potassium hydrogen oxalate (KHCO), potassium tetraoxalate (KHCO·HCO), and oxalic acid (HCO) were investigated for the Al and Fe extraction process from NIST SRM 600 – Australian Darling range bauxite ore. More than 90% of Al and Fe was extracted into the aqueous phase in less than 2 h with 0.50 M CO for all three reagents. The Fe and Al can be selectively precipitated by hydrolyzing the aqueous phase. By acidifying the Al and Fe free filtrate, 80% of the CO can be precipitated as KHCO·HCO. Greater than 90% of the aqueous acid can also be recycled using a cation exchange resin. The proposed closed-loop process is an energy-efficient, cost-effective, environmentally-friendly route for extracting Al and Fe from bauxite ore.

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