Biodegradable-stimuli sensitive xanthan gum based hydrogel: Evaluation of antibacterial activity and controlled agro-chemical release

Sukriti,; Kaith, Balbir Singh; Jindal, Rajeev; Kumari, Mala; Kaur, Mohinder

doi:10.1016/j.reactfunctpolym.2017.08.012

Cited by 53 publications

(9 citation statements)

References 43 publications

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“…The percentage degradation was more in compositing method as compared to soil burial method presumably due to the presence of a live population of degrading microbes. These microbes will transform the polymeric material into soluble products though metabolic and enzymatic processes ultimately leading to the deterioration and fragmentation of the samples in a very short span of time [45–47] …”

Section: Resultsmentioning

confidence: 99%

“…These microbes will transform the polymeric material into soluble products though metabolic and enzymatic processes ultimately leading to the F I G U R E 7 SEM images of interpenetrating polymer network at (A) first; (B) second; (C) third stages of biodegradation using soil burial method F I G U R E 6 FTIR of interpenetrating polymer network using compositing method at different stages of biodegradation deterioration and fragmentation of the samples in a very short span of time. [45][46][47] 4 | CONCLUSIONS…”

Section: Freundlich Adsorption Isotherm Modelmentioning

confidence: 99%

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Exploring the heavy metal ion sequestration ability of gum copal‐collagen hybrid based interpenetrating polymer network: Kinetics, isotherms, and biodegradation studies

Kaur

Jindal

2020

SPE Polymers

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In this article, gum copal-collagen hybrid based interpenetrating polymeric network (IPN) [(GcA-coll)-cl-poly(AAm-ip-AA)] has been used as a green adsorbent for the removal of Pb(II) and Cd(II) from waste water. Adsorption equilibrium was achieved in 9 h and pseudo-second-order model was found to be the closest fit to the kinetic adsorption data. Freundlich adsorption isotherm model was found to closely match with the sorption behavior of Pb(II) and Cd(II). The reaction parameters like initial metal ion concentration, adsorbent dose, pH, and the reaction time were optimized to get the hydrogel with maximum metal ion removal capacity (91.65% for Pb(II) and 95% for Cd(II)). The maximum percentage biodegradation of IPN was 80.25% by the compositing method. This IPN is an efficient, low cost potential adsorbent with excellent biodegradation and can act as an environment-friendly agent for removing heavy metals from water.

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Section: Resultsmentioning

confidence: 99%

Section: Freundlich Adsorption Isotherm Modelmentioning

confidence: 99%

Exploring the heavy metal ion sequestration ability of gum copal‐collagen hybrid based interpenetrating polymer network: Kinetics, isotherms, and biodegradation studies

Kaur

Jindal

2020

SPE Polymers

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“…Sukriti et al fabricated a biodegradable, stimuli-sensitive xanthan gum based hydrogel and estimated its potential for the controlled/sustained release of urea. The % urea entrapment potential of the hydrogel was found to be 62.67%.…”

Section: Polymer Based Hydrogels For Multiple Actions In Agricultural...mentioning

confidence: 99%

Polymer Based Engineered Materials for Sustainable Agriculture

Dhiman

Sharma

Agrawal

2022

ACS Agric. Sci. Technol.

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In quest of developing alternative technological solutions to increase agricultural production for feeding the growing population, extensive research is being performed in the agriculture area. In this regard, massive attention is being paid to develop polymer based engineered materials with a multitude of unique physicochemical properties using the concepts of modern polymer chemistry, materials technology, and nanotechnology. In this review, we provide an overview of recent advancements in polymer based engineered materials for striving toward sustainable agricultural practices. Herein, we discuss both natural and synthetic polymer based materials such as nanocarriers, electrospun fibers, hydrogels, and sensors for controlled agrochemical release, promoting growth, soil conditioning, sensing of soil condition, and other combined multiple actions in agriculture. Polymeric nanocomposites have promoted the growth of plants via an increase in the release rate of loaded agrochemicals. Polymer based nanofibers with a fiber diameter of <0.5 μm have stimulated the germination and nutrient supply to the plant along with providing a better seed coverage. Hybrid hydrogels possess the characteristic features of both natural and synthetic polymers, thus providing a better solution for the sustained release of agrochemicals in an economical way. Although the polymer based engineered materials have provided a significant contribution toward sustainable agriculture, still challenges such as the overall cost of fabricated material and practical feasibility in the agriculture fields need to be addressed. The side effects of the degraded products on the environmentally friendly microorganisms and the contamination of our natural underground water resources are some of the research areas which need to be explored further in the future.

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“…In recent years, a variety of wound dressings have been studied, including membranes, ,,, coatings, , mats, , electrospun nanofibers, , and hydrogels. ,− Among them, the hydrogel is widely reported for its high water content, easy removal, and biocompatibility. − Furthermore, the hydrogel has a wide range of biomedical applications, including drug-delivery systems, ,, tissue-engineering scaffolds, , and other medical devices. , In this study, a novel nonreleasing antibacterial hydrogel material with good protein adsorption performance, repeatable adhesiveness, and excellent mechanical performance was prepared by a one-step method, and the chemical structure, morphology feature, mechanical properties, and antibacterial performance of the hydrogel were systematically evaluated. The results of wound closure and histopathological examination on the full-thickness skin defect model of rats showed that this antibacterial hydrogel dressing could effectively promote wound healing.…”

Section: Introductionmentioning

confidence: 97%

Novel Nonreleasing Antibacterial Hydrogel Dressing by a One-Pot Method

Wang

et al. 2020

ACS Biomater. Sci. Eng.

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A novel nonreleasing antibacterial hydrogel dressing with good reusability was prepared by polyethylene glycol dimethacrylate, N,N-methylene-bis-acrylamide, methyl methacrylate, 1-vinyl-3-butylimidazolium, and acrylamide. The ionic liquid of 1-vinyl-3-butylimidazolium was polymerized in the hydrogel to endow the hydrogel dressing with an antibacterial property. The successful synthesis of the hydrogel dressing was proven by FT-IR spectroscopy and energy-dispersive spectrometry. The morphology of the hydrogel was confirmed to be a porous and interconnected network structure by scanning electron microscopy. The resultant hydrogel dressing showed many desirable features, such as a good protein adsorption property and repeatable adhesiveness as well as excellent mechanical properties. Remarkably, the hydrogel dressing displayed broad antibacterial activity against bacteria Staphylococcus aureus and Escherichia coli and fungal Candida albicans. In addition, the hydrogel dressing applied locally on wounded skin of rats could effectively avoid early infection and further accelerate wound healing. The results indicated that the nonreleasing antibacterial hydrogel had potential application in wound dressing.

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Biodegradable-stimuli sensitive xanthan gum based hydrogel: Evaluation of antibacterial activity and controlled agro-chemical release

Cited by 53 publications

References 43 publications

Exploring the heavy metal ion sequestration ability of gum copal‐collagen hybrid based interpenetrating polymer network: Kinetics, isotherms, and biodegradation studies

Exploring the heavy metal ion sequestration ability of gum copal‐collagen hybrid based interpenetrating polymer network: Kinetics, isotherms, and biodegradation studies

Polymer Based Engineered Materials for Sustainable Agriculture

Novel Nonreleasing Antibacterial Hydrogel Dressing by a One-Pot Method

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