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Papers
20 resultsShowing papers similar to Role of Nanotechnology in Plastic and Microplastic Management
ClearApplication of Nanomaterials in the Degradation of Micro and Nano Plastics
This review examined the application of nanomaterials for degrading micro- and nanoplastics, covering photocatalytic, oxidative, and biological nanomaterial approaches and evaluating their efficiency and scalability for plastic pollution remediation.
Nanotechnology in Plastic Degradation
This review examines how nanotechnology can enhance plastic biodegradation, with nanoparticles improving microbial metabolic efficiency for polythene degradation, while also being incorporated into bioplastics to improve their poor thermal and mechanical properties relative to conventional plastics.
Novel Acumens into Biodegradation: Impact of Nanomaterials and Their Contribution
This review examines how nanomaterials can enhance the biodegradation of pollutants, including plastics, in the environment. Nanomaterial-assisted biodegradation offers a potential strategy for accelerating the breakdown of plastic waste before it fragments into microplastics.
Nanotechnology for the Remediation of Plastic Wastes
This review examines nanotechnology-based approaches for remediation of plastic waste, covering methods to address the growing environmental threat posed by microplastics and nanoplastics as persistent pollutants derived from degrading larger plastic debris.
Degradation of Micro- and Nano-Plastics by Photocatalytic Methods
This paper reviews photocatalytic methods — using light-activated catalysts — as a way to break down micro- and nano-plastics in the environment. These approaches offer a promising path toward degrading persistent plastic particles that accumulate in marine and drinking water systems.
A review on the role of nanotechnological interventions in sequestration, mitigation and value-added product conversion of micro-/nanoplastics
This review examines how nanotechnology-based approaches can be used to capture, break down, or convert microplastics and nanoplastics into useful products. The buildup of these tiny plastic particles in water environments has become a global health and environmental concern. The review highlights promising technologies that could help clean up microplastic pollution and reduce human exposure.
Photodegradation of Microplastics through Nanomaterials: Insights into Photocatalysts Modification and Detailed Mechanisms
This review examines how specially designed nanomaterials can break down microplastics in water using light-driven chemical reactions. While not directly about human health, improving microplastic removal from water sources could reduce the amount of tiny plastic particles that ultimately end up in drinking water and the food chain.
Photodegradation of microplastics through nanomaterials: Insights into photocatalysts modification and detailed mechanisms
This review explores how nanomaterial-enhanced photocatalysts can break down microplastics that conventional water treatment fails to remove. The paper details key strategies like element doping and heterojunction construction that improve degradation efficiency, and explains the underlying mechanisms involving free radical formation and singlet oxygen oxidation.
Engineered nanocatalysts for degradation and valorisation of micro/nanoplastics
This review explored how engineered nanocatalysts can break down micro- and nanoplastics and convert them into useful products. Researchers highlighted several promising technologies, including microrobots, nanozymes, and solar-powered systems that can efficiently degrade persistent plastic particles. The study suggests that catalytic approaches offer a pathway toward both cleaning up plastic pollution and supporting a circular economy by turning waste into valuable materials.
Nanomaterials for microplastic remediation from aquatic environment: Why nano matters?
This review examines how nanomaterials such as photocatalysts, adsorbents, and membrane filters can be used to remove microplastics from aquatic environments, highlighting why nanoscale properties offer advantages over conventional remediation approaches.
Photocatalytic Perception for Degradation of Macro- and Micro-plastics
This review examines photocatalytic approaches for degrading both macro- and micro-plastics, surveying semiconductor-based and other photocatalytic systems capable of breaking down persistent plastic polymers in aquatic and terrestrial environments. The paper evaluates the mechanisms, efficiency, and scalability of photocatalysis as a remediation technology alongside conventional plastic waste management strategies.
Integrated photothermal and photocatalytic degradation of micro-/nanoplastics: a mini-review with mechanistic insights and future perspectives
This mini-review examines how combined photothermal and photocatalytic technologies can be used to break down micro- and nanoplastics in the environment. Researchers describe how these approaches use light energy to generate heat and reactive chemical species that degrade plastic particles. The study outlines the underlying mechanisms and discusses future directions for making these treatment methods practical at larger scales.
Challenges and opportunities in bioremediation of micro-nano plastics: A review.
This review examines biological approaches to removing micro- and nanoplastics from the environment, focusing on microbial degradation and bioremediation strategies. While bioremediation holds promise, challenges remain in identifying microbes capable of degrading common plastic types and scaling these processes for practical environmental cleanup.
Innovative Approaches to Microplastic and Nano-plastic Biodegradation
This review covers innovative biotechnological approaches to microplastic and nanoplastic biodegradation, examining the origins of these particles from larger plastic waste and intentionally manufactured microbeads. The authors assess promising biological and enzymatic strategies for accelerating breakdown of persistent plastic polymers in environmental and engineered systems.
Efficiency of Hybrid Materials for Photocatalytic Degradation of Micro‐ and Nano‐Plastics
Researchers reviewed how hybrid materials — combinations of multiple substances engineered at the nanoscale — can serve as highly effective photocatalysts to break down microplastics and nanoplastics using light energy. These multi-functional materials improve electron separation and reaction efficiency compared to single-component catalysts, representing a promising technological pathway for removing persistent plastic particles from the environment.
Nanoparticle-Based Bioremediation Approach for Plastics and Microplastics
This review explores how nanoparticle-enhanced bioremediation approaches can help address plastic and microplastic pollution. Researchers found that combining biological degradation by bacteria and fungi with engineered nanoparticles can improve the efficiency of breaking down various plastic polymers. The study suggests that these hybrid bioremediation strategies offer a promising eco-friendly pathway for mitigating plastic contamination in the environment.
Photocatalytic Technologies for Transformation and Degradation of Microplastics in the Environment: Current Achievements and Future Prospects
This review examines photocatalytic technologies that use light-activated materials to break down microplastics in the environment. Various catalysts can generate reactive oxygen species that degrade plastic polymers into simpler, less harmful molecules. The authors assess the strengths and limitations of different photocatalytic approaches and highlight the need for scalable solutions that work under real-world environmental conditions.
Nanomaterials for Advanced Photocatalytic Plastic Conversion
This review examines the use of nanomaterials for photocatalytic conversion of waste plastics into useful chemicals and fuels, highlighting approaches that use sunlight as an energy source under ambient conditions. Photocatalytic upcycling of plastic waste offers a potentially sustainable alternative to conventional thermal and chemical recycling methods.
Micro‐ and Nano‐Plastic Pollution
Researchers review the growing global threat of micro- and nanoplastics — plastic particles ranging from 0.1mm down to 100 nanometers — exploring how they bind to toxic chemicals as they travel through the environment and how emerging photocatalytic technologies using sunlight could offer sustainable new ways to break them down.
Nanotechnology in Wastewater Management: A New Paradigm Towards Wastewater Treatment
This review examines how nanotechnology-based methods like nano-filtration, photocatalysis, and nano-adsorbents can improve wastewater treatment. These approaches offer advantages over traditional methods, including better removal of tiny pollutants like microplastics that conventional filters miss. Improving wastewater treatment is important because treatment plants are a major pathway through which microplastics reach drinking water sources.