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Bioremediation of Hazardous Wastes Using Green Synthesis of Nanoparticles

PROCESSES (2023)

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In-situ, Ex-situ, and nano-remediation strategies to treat polluted soil, water, and air-A review

Asim Hussain et al.

Summary: Nanotechnology, as an emerging science, has revolutionized the field of environmental pollution control by providing improved methods and tools for remediation. The use of various nanoparticles has been shown to effectively diminish environmental hazards and improve the efficiency of pollution cleanup processes.

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Green Synthesis of Superparamagnetic Iron Oxide Nanoparticles with Eucalyptus globulus Extract and Their Application in the Removal of Heavy Metals from Agricultural Soil

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Summary: The green synthesis of metal oxide nanoparticles is an excellent sustainable alternative for achieving nanostructures. This research provides important information regarding the influence of solvent type on the green synthesis protocol of FeO NPs. The study employed various characterization techniques to analyze the materials, and the results showed the influence of solvent type on the extraction of organic reducing agents and the synthesis of FeO NPs.

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Study of the optical properties of TiO2 semiconductor nanoparticles synthesized using Salvia rosmarinus and its effect on photocatalytic activity

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Summary: This study synthesized titanium oxide nanoparticles using Salvia rosmarinus extract and investigated their optical properties and photocatalytic activity. The results showed that increasing the concentration of the extract resulted in a decrease in the band gap values of the nanoparticles, leading to enhanced photocatalytic activity.

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Bio-Based Synthesis of Silver Nanoparticles from Waste Agricultural Biomass and Its Antimicrobial Activity

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Summary: The problem of cleaning and disinfecting surfaces has become extremely important in the context of the ongoing SARS-CoV-2 coronavirus pandemic. Silver nanoparticles may be an interesting alternative to the commonly used surface cleaners and disinfectants due to their antimicrobial activity. This study evaluated the bactericidal properties of silver nanoparticles obtained using a biogenic method with plant waste biomass. The results showed strong antimicrobial effects of the biogenic nanosilver, making it a potential component for washing and disinfection agents for public utility surfaces.

PROCESSES (2022)

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Peltophorum pterocarpum leaf extract mediated green synthesis of novel iron oxide particles for application in photocatalytic and catalytic removal of organic pollutants

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Summary: The study investigates the influence of polyphenolic compounds in plant biomaterial on iron oxide particles, and their application in the removal of an organic pollutant. The synthesized FePPE particles show excellent removal efficiency and their material properties have been characterized using various techniques.

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Role of Nanoparticles in Environmental Remediation: An Insight into Heavy Metal Pollution from Dentistry

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Summary: Environmental damage is a serious issue, and the usage and discharge of heavy metals in dentistry contribute to pollution and pose a threat to the environment. Nanoparticle technology shows promise for environmental remediation, but further research and studies are needed for its practical application.

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Biosustainable production of nanoparticles via mycogenesis for biotechnological applications: A critical review

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Summary: The demand for green synthesis of nanoparticles has surpassed conventional methods due to environmental and economic benefits. Nanoparticles synthesized from this method exhibit unique physical and chemical properties, with high stability and enhanced biological activities, making them ideal for various industrial, agricultural, and medical applications. This review focuses on mushroom-mediated biosynthesis of nanomaterials, discussing synthesis techniques, parameters, and recent developments.

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Plant-Mediated Synthesis and Characterization of Silver and Copper Oxide Nanoparticles: Antibacterial and Heavy Metal Removal Activity

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Biosynthesis of Cu nanoparticles using Polyalthia longifolia roots extracts for antibacterial, antioxidant and cytotoxicity applications

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Green Synthesis of Nanoparticles by Mushrooms: A Crucial Dimension for Sustainable Soil Management

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A Review on Green Synthesis of Nanoparticles and Their Diverse Biomedical and Environmental Applications

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Summary: The green synthesis of metal oxide nanoparticles is an important research area that can enhance their biocompatibility and applications in the medical and environmental sectors. Utilizing microorganisms and plant extracts for bio-synthesis can reduce toxicity and bring new insights into nanoparticle production. Current research primarily focuses on the application of nanoparticles in cancer therapy and explores their potential for clinical use.

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Nanotechnology in the Restoration of Polluted Soil

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Summary: The advancements in nanoparticles offer a sustainable and eco-friendly approach to remove toxic compounds from contaminated soils, when combined with bioremediation methods.

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Chetan Pandit et al.

Summary: Green nanoparticle synthesis is a novel field in nanotechnology that surpasses physical and chemical approaches in terms of cost-efficiency, biocompatibility, environmental friendliness, and scalability. Metal oxide nanoparticles, produced from plants, bacteria, fungi, and algae, have emerged as biomedical materials with applications in immunotherapy, tissue treatment, drug delivery, and more. Their antimicrobial, antifungal, and antiviral properties contribute to their commercial value and broad applicability.

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Aspergillus tamarii mediated green synthesis of magnetic chitosan beads for sustainable remediation of wastewater contaminants

Reyad M. El-Sharkawy et al.

Summary: This study focuses on the potential of Fe3O4-NPs-based polymer for the sustainable bioremediation of toxic substances in contaminated water. The biosynthesis of Fe3O4-NPs was carried out for the first time, and the optimal production conditions were determined. The Fe3O4-NPs were successfully incorporated into chitosan beads, which showed remarkable removal capability and reusability. The results demonstrated that Fe3O4-NPs-based biopolymer is an efficient and sustainable biosorbent for the elimination of hazardous pollutants in wastewater.

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Nanomaterials for Remediation of Environmental Pollutants

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Abdul Waris et al.

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Algae-mediated biosystems for metallic nanoparticle production: From synthetic mechanisms to aquatic environmental applications

Sheng-Nan Li et al.

Summary: The utilization of algae as living cell factories or natural reducing agents for synthesizing metallic nanomaterials in an eco-friendly manner has gained urgency due to the growing importance of green chemistry and environmental protection. Despite limited studies on algae-mediated biosynthesis of metallic nanoparticles and their applications in wastewater treatment, this review comprehensively discusses the synthetic mechanisms, operational parameters, case studies, and potential challenges and future perspectives to improve economic viability and environmental application of algae-synthesized metallic nanoparticles for aquatic pollutants treatment.

JOURNAL OF HAZARDOUS MATERIALS (2021)

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Article Plant Sciences

Influence of nanoscale micro-nutrient α-Fe2O3 on seed germination, seedling growth, translocation, physiological effects and yield of rice (Oryza sativa) and maize (Zea mays)

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Summary: In this study, nanoscale micronutrient iron prepared using marine macro alga Turbinaria ornata was found to be an effective priming agent for enhancing seed germination and growth of rice and maize crops. Additionally, foliar application of low concentration nanoscale micronutrient iron significantly increased chlorophyll content and yield attributes of rice and maize crops under field conditions.

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Iron sulfide nanoparticles prepared using date seed extract: Green synthesis, characterization and potential application for removal of ciprofloxacin and chromium

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Summary: This study presents a novel green approach for synthesizing iron sulfide nanoparticles using aqueous extracts from date tree seeds, showing potential for efficient removal of pharmaceutical and heavy metal pollutants from water.

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Summary: In this study, silver nanoparticles (AgNPs) were biosynthesized using a freshwater green alga, Chlorella vulgaris. The experiments led to the determination of optimal synthesis conditions, and spectroscopic and microscopic techniques were employed for characterization of the synthesized AgNPs.

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Peng Cheng et al.

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Pranali Kurhade et al.

Summary: Nanotechnology offers advanced solutions to modern issues, allowing for more sustainable products and processes. Green synthesis of metal nanoparticles is non-toxic, high-yield, and influenced by the diverse chemical components of biological extracts. This method shows potential applications across various fields and demonstrates a unique sustainability impact over the environment.

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Cadmium removal from aqueous solution by green synthesis iron oxide nanoparticles with tangerine peel extract

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Role of Fe-responsive genes in bioreduction and transport of ionic gold to roots of Arabidopsis thaliana during synthesis of gold nanoparticles

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Biosynthesis of silver and gold nanoparticles by novel sundried Cinnamomum camphora leaf

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