We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
61,005 resultsShowing papers similar to A comprehensive review on green materials as adsorbents for the remediation of heavy metals, dyes, antibiotics, pesticides, and microplastics from water and wastewater: an overview
ClearMicrobial biosorbent for remediation of dyes and heavy metals pollution: A green strategy for sustainable environment
This review covers how microorganisms can be used as low-cost, eco-friendly tools to remove heavy metals and dyes from polluted water through a process called biosorption. Various bacteria, fungi, and algae can bind toxic pollutants to their surfaces through natural chemical interactions. The approach offers advantages over conventional treatment methods including lower cost, no nutrient requirements, and the ability to regenerate the biological material for reuse.
The Role of Biocomposites and Nanocomposites in Eliminating Organic Contaminants from Effluents
Not relevant to microplastics — this review evaluates biocomposite and nanocomposite sorbents for removing heavy metals, dyes, and hydrocarbons from industrial wastewater, comparing adsorption mechanisms and recyclability.
Green solutions for clean water: Natural materials in contaminant detection and removal
This review examines green and natural materials — including biosorbents, biopolymers, plant-based composites, and naturally occurring minerals — as sustainable alternatives to conventional water treatment technologies for detecting and removing emerging contaminants, evaluating biodegradability, cost-effectiveness, and performance against limitations of high cost and secondary pollution in traditional approaches.
Exploring trends of wastewater treatment by using nano-materials and their composites with bio-polymer
This review examines trends in wastewater treatment using nanomaterials and their composites with biopolymers, analyzing techniques including nanofiltration, adsorption, disinfection, and bioremediation for removing pollutants such as heavy metals, biological oxygen demand, and toxic compounds from industrial effluents.
Green Strategies for Removal of Emerging Contaminants from Aqueous System
This review examines green strategies for removing emerging contaminants from aqueous systems, evaluating bioremediation, phytoremediation, and eco-friendly nanocomposite approaches for eliminating pharmaceuticals, endocrine disruptors, microplastics, and pesticides from water.
A brief review on utilizing natural adsorbents for microplastic removal from wastewater: A sustainable approach to environmental protection
Researchers reviewed natural materials like biochar, clay, algae, and agricultural waste as affordable alternatives to synthetic filters for removing microplastics from wastewater, finding some achieved over 80% removal efficiency in the lab, though scaling these methods to real-world treatment systems remains a significant challenge.
Innovations and challenges in adsorption-based wastewater remediation: A comprehensive review
Researchers reviewed how next-generation materials — including nanomaterials and AI-designed adsorbents with large surface areas and tailored pore structures — are transforming water purification by more efficiently capturing a wider range of contaminants. The review highlights that economic and regulatory barriers still need to be overcome before these advanced technologies can work at the scale of real water treatment plants.
A critical review of microplastics and nanoplastics in wastewater: Insights into adsorbent-based remediation strategies
This review analyzes research on removing microplastics and nanoplastics from water using materials that absorb the particles, finding that adsorption is the most widely studied removal method. Carbon-based and metal-based materials currently dominate the research, but plant-based (biopolymer) adsorbents are gaining attention because they are biodegradable and non-toxic. Better removal technologies are critical because conventional water treatment often fails to capture the smallest plastic particles that pose the greatest risk to human health.
Adsorption of Heavy Metals: Mechanisms, Kinetics, and Applications of Various Adsorbents in Wastewater Remediation—A Review
This review summarizes how different materials like activated carbon, agricultural waste, and nanomaterials can filter heavy metals out of contaminated water. Since microplastics in water can carry and concentrate heavy metals, improving water treatment is important for reducing human exposure to these combined pollutants.
Innovations in the Development of Promising Adsorbents for the Remediation of Microplastics and Nanoplastics – A Critical Review
This review evaluates innovative materials being developed to remove microplastics and nanoplastics from polluted water, including carbon-based, metal, polymer, and mineral adsorbents. Researchers compared the effectiveness, advantages, and limitations of each type, finding that adsorption-based approaches show strong promise. The study highlights remaining challenges such as scaling these technologies for real-world water treatment applications.
Adsorption of Different Pollutants by Using Microplastic with Different Influencing Factors and Mechanisms in Wastewater: A Review
This review examines how microplastics adsorb various pollutants including heavy metals, antibiotics, and organic contaminants in wastewater, analyzing the key factors and mechanisms that influence their adsorption capacity and environmental behavior.
Natural and Natural-Based Polymers: Recent Developments in Management of Emerging Pollutants
This review explores how natural and bio-based polymers can be used to remove a range of emerging pollutants from water, including microplastics, pharmaceuticals, and pesticides. It highlights natural materials as sustainable, cost-effective alternatives to synthetic adsorbents and aligns with green chemistry principles. The work is relevant to microplastics in that it frames them as part of a broader emerging contaminant problem and explores biopolymer-based solutions for water purification.
Exploring Microbial-Based Green Nanobiotechnology for Wastewater Remediation: A Sustainable Strategy
This review examines how microbial-based green nanotechnology can serve as a sustainable alternative to conventional wastewater treatment methods. Researchers found that nanoparticles synthesized using microorganisms offer a cost-effective, eco-friendly approach to removing a broad range of water contaminants. The study compares the performance of these green nanomaterials against traditional treatment methods across factors like reusability, efficiency, and scalability.
Green Solutions for Degradation of Pollutants
This book compiles 13 comprehensive reviews on green remediation techniques including microbial bioremediation, nano-bioremediation, phytoremediation, and green-nanoremediation for treating wastewater, microplastics, metals, and other environmental pollutants.
The Potentiality of Reuse Industrial Waste for Diverse Water Treatment -An Overview
This overview reviews innovative adsorbent materials made from industrial waste that can remove diverse pollutants from wastewater at low cost. While not focused on microplastics specifically, it is relevant to the broader challenge of plastic and chemical pollution remediation in water systems.
Valorization of organic waste as biosorbents for wastewater treatment
This review examines the conversion of organic waste materials into biosorbents for wastewater treatment, covering 126 studies. Researchers found that agricultural and non-agricultural waste can be effectively transformed into adsorbents for removing dyes, pharmaceuticals, heavy metals, and other pollutants, offering a sustainable approach to both waste management and water purification.
Advanced Nanotechnology in Wastewater Treatment: Investigating the Role of Nanoparticles in Pollutant Removal, Water Recovery, and Environmental Sustainability
This review examines how nanotechnology-based approaches — including nanoparticle adsorbents, nanofiltration membranes, and photocatalysts — can address persistent water pollutants including pharmaceuticals, microplastics, and heavy metals more effectively than conventional treatment methods.
Emerging contaminants in polluted waters: Harnessing Biochar's potential for effective treatment
This review explores how biochar, a carbon-rich material made from organic waste, can be used to remove a wide range of pollutants from contaminated water, including microplastics, heavy metals, antibiotics, and PFAS. Biochar works through multiple mechanisms like adsorption, electrostatic interactions, and chemical bonding, and can be enhanced through surface modifications. The study highlights biochar as a low-cost, adaptable tool for addressing emerging water contaminants.
Mechanistic and recent updates in nano-bioremediation for developing green technology to alleviate agricultural contaminants
Researchers reviewed nano-bioremediation — the combination of nanoparticles with microbial processes — as a promising strategy for removing heavy metals, pesticides, and other agricultural contaminants from soil and water, highlighting improved catalytic activity and adsorption capacity compared to conventional remediation methods.
Recent Advances in the Remediation of Textile-Dye-Containing Wastewater: Prioritizing Human Health and Sustainable Wastewater Treatment
This review examines how the textile industry is a major source of wastewater containing harmful dyes and chemicals that threaten water quality and human health. It evaluates sustainable treatment approaches including bio-adsorbents, membrane technology, and advanced oxidation processes for cleaning textile wastewater and recovering useful materials.
Adsorption of Pollutants from Wastewater by Biochar: A Review
This review examines how biochar, a carbon-rich material made from organic waste, can be used to remove pollutants including microplastics, heavy metals, and organic chemicals from wastewater. Biochar works by adsorbing contaminants onto its surface, and its effectiveness can be improved through chemical modifications. The technology offers a low-cost, sustainable approach to water treatment that could help reduce microplastic contamination in water supplies.
Bioremediation Techniques for Water and Soil Pollution: Review
This review covers bioremediation techniques that use microorganisms to break down pollutants in water and soil, including microplastics, heavy metals, and pharmaceutical residues. Researchers highlight how bacteria, fungi, and algae can be harnessed to degrade plastic waste and other contaminants through natural biological processes. The study suggests that bioremediation offers a promising, environmentally friendly approach to tackling pollution, though more research is needed to optimize these techniques for real-world application.
Bioremediation for Environmental Pollutants
This book chapter reviews bioremediation techniques for removing hazardous chemicals from contaminated soil and water, covering heavy metals, dyes, and other industrial pollutants. Bioremediation approaches including microbial and plant-based methods are also being explored for removing microplastics from contaminated environments.
Utilizing nature-based adsorbents for removal of microplastics and nanoplastics in controlled polluted aqueous systems: A systematic review of sources, properties, adsorption characteristics, and performance
This systematic review evaluates how natural materials like agricultural waste and plant-based substances can be used to filter microplastics and nanoplastics from water. The research shows that these nature-based solutions offer a sustainable and effective approach to reducing plastic particle contamination in drinking water and wastewater systems.