2022
DOI: 10.1021/acsagscitech.1c00278
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Polymer Based Engineered Materials for Sustainable Agriculture

Abstract: 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 engi… Show more

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Cited by 28 publications
(11 citation statements)
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“…[1][2][3][4] Moreover, the high water holding capacity and tunable physical and chemical properties of hydrogels have made them highly advantageous over other soft materials and they can be employed in a wide range of industrial applications, such as wastewater treatment, agriculture, oil recovery, and the food industry. 5,6 For many years, wastewater treatment has been an important part of water management as industries and factories have been releasing dyes and other toxic substances to water bodies at an alarming rate. Thus, efforts have been devoted to recycling water through the adsorption or degradation of pollutants.…”
Section: Introductionmentioning
confidence: 99%
“…[1][2][3][4] Moreover, the high water holding capacity and tunable physical and chemical properties of hydrogels have made them highly advantageous over other soft materials and they can be employed in a wide range of industrial applications, such as wastewater treatment, agriculture, oil recovery, and the food industry. 5,6 For many years, wastewater treatment has been an important part of water management as industries and factories have been releasing dyes and other toxic substances to water bodies at an alarming rate. Thus, efforts have been devoted to recycling water through the adsorption or degradation of pollutants.…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, substantial efforts have been directed toward developing controlled-release urea (CRU) to improve utilization and ease the environmental impact of urea while maximizing crop yield. The main strategies that have been used to encapsulate urea for use as CRU include spray coating of urea granules with a wide range of nonbiodegradable polymers (e.g., polysulfone, polyurethane, and polyolefins) and encapsulation of urea nanoparticles within a composite through mixing with biodegradable polymers (e.g., aliphatic polyesters and polysaccharides). However, these strategies have limitations. For example, hydrophobic and impermeable polymers may cause soil contamination if they are not fully degraded, and encapsulation typically involves a multistep procedure, leading to high production costs. , Moreover, encapsulation of urea using liquid mixing protocols requires the use of organic solvents at 40–130 °C and cross-linking agents, which complicates the process and presents challenges for large-scale production. Therefore, the development of simple processes, which can also be upscaled, for producing CRUs is required …”
Section: Introductionmentioning
confidence: 99%
“…The efficiency of P-based fertilizers can be enhanced by integration into polymers that enable controlled delivery and tunable release . Biodegradable polymers are often used as coatings that release dry or pelleted fertilizers based on conditions such as soil temperature and moisture, and the thickness and porosity of the polymer. , Alternatively, nutrients can be incorporated directly into polymers to create polymer composites, wherein nutrient release is triggered by either biophysical-edaphic factors or biodegradation by native soil microbes. Biodegradable polymer composites have been shown to significantly reduce nutrient losses in runoff , and can potentially improve plant nutrient uptake efficiency …”
Section: Introductionmentioning
confidence: 99%