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61,005 resultsShowing papers similar to Bio-based plastics – a sustainable solution to plastic pollution
ClearBio Plastics from Biomass
This paper reviews bioplastics derived from biomass as a potential solution to conventional plastic pollution, examining their properties, production methods, and limitations in fully replacing fossil-based plastics.
Bio-Based Materials for Packaging
This review evaluates bio-based materials as sustainable alternatives for plastic packaging, examining the environmental performance, mechanical properties, and commercial viability of biopolymers in addressing the global plastic pollution crisis.
Bioplastics as Better Alternative to Petroplastics and Their Role in National Sustainability: A Review
This review examines bioplastics as a more environmentally sustainable alternative to petroleum-based plastics, discussing their advantages including lower carbon footprint and biodegradability, while noting that higher production costs currently limit their ability to compete with conventional plastics.
Bioplastics from Waste Biomass: Paving the Way for a Sustainable Future
This review investigates the use of waste biomass -- including agricultural residues and food waste -- as feedstocks for producing bioplastics as a sustainable alternative to fossil-fuel-derived conventional plastics. The authors assess the potential of different waste biomass sources to yield biodegradable polymers that reduce both carbon emissions and microplastic accumulation in the environment.
Exploration of Bioplastics: A Review
This review assessed bioplastics as alternatives to petroleum-based plastics, covering their production, properties, biodegradability, and limitations as a solution to plastic pollution. While bioplastics offer reduced fossil fuel dependence, the authors noted that many only degrade under industrial composting conditions and are not a complete solution to environmental plastic accumulation.
Benefits and Drawbacks of Bioplastic as an Alternative of Conventional Plastic towards Sustainable Plastic T
This review examines bioplastics derived from renewable biomass sources (such as corn starch, vegetable oils, and food waste) as sustainable alternatives to conventional petroleum-based plastics, evaluating their benefits and drawbacks across environmental performance, biodegradability, and scalability. The article explores whether bioplastics represent a viable pathway toward more sustainable plastic use given growing concerns over the non-biodegradable nature and resource intensity of conventional plastics.
Pathways to sustainable plastics. Unlocking opportunities in biobased plastic
This report examines pathways toward sustainable plastics production, finding that manufacturing new plastic from recycled content is the preferred circular economy route and that biobased feedstocks from biomass, recycled plastics, and CO2 can enable a transition away from fossil-based polymer production.
Towards a Circular Economy of Plastics: An Evaluation of the Systematic Transition to a New Generation of Bioplastics
This review evaluates the transition from petroleum-based plastics to bioplastics within a circular economy framework, assessing the sustainability, production challenges, and environmental trade-offs of current bioplastic alternatives.
Bio-based plastics in a circular economy: A review of recovery pathways and implications for product design
Researchers reviewed how bio-based plastics — made from renewable plant sources — can be recovered and recycled at end-of-life, finding that the feasibility of eight different recovery methods depends heavily not just on plastic chemistry but on how products are designed, and offering guidance for designers to improve recyclability.
Realising the circular bioeconomy
This policy paper examines how the bioeconomy and circular economy concepts can work together to reduce waste and environmental impact, including from plastic production. Moving toward bio-based, circular systems is part of the long-term solution to the plastic pollution problem.
Bioplastic- Futuristic Approach
This review examines bioplastics as a sustainable alternative to petrochemical-based plastics, covering materials derived from biomass such as starch, cellulose, and microbial polymers. The paper surveys the biodegradation properties, production methods, and limitations of current bioplastic technologies as part of a broader strategy to address global plastic pollution.
Food packaging Bio-based plastics: Properties, Renewable Biomass resources, Synthesis, and Applications
This review covers bio-based plastics made from renewable biomass sources as alternatives to petroleum-based packaging, aiming to reduce plastic pollution and extend food shelf life. While bio-based plastics can reduce environmental impact at end of life, their behavior after disposal and whether they generate microplastics still requires careful evaluation.
Understanding bioplastic materials - current state and trends
This review summarizes the current state of bioplastic materials, examining their properties, applications, and potential as alternatives to conventional petroleum-based plastics that contribute to environmental pollution. The authors assess both the promise and limitations of bioplastics in reducing the global plastic waste crisis.
Petroleum-Based Plastics Versus Bio-Based Plastics: A Review
This review compares petroleum-based plastics with bio-based alternatives, examining the environmental drawbacks of conventional plastics that persist in the environment for long periods. Researchers discuss how bioplastics offer a more sustainable option, as they can be derived from renewable sources and are often biodegradable. The study emphasizes the need to shift toward bioplastics to reduce the accumulating environmental burden of plastic waste.
Incarnation of bioplastics: recuperation of plastic pollution
This review explored bioplastics as eco-friendly alternatives to petroleum-based plastics, examining their production from agricultural and kitchen waste products and their potential for microbial decomposition to help reduce plastic pollution.
Bioplastics for a circular economy
Researchers reviewed the role of bioplastics — made from bio-based or biodegradable polymers — in circular economy systems, finding that while they can lower carbon footprints and enable end-of-life biodegradation, trade-offs including land competition, unclear recycling compatibility, and higher costs limit their scalable sustainable impact.
Are bioplastics the solution to the plastic pollution problem?
This review examines whether bioplastics can meaningfully reduce plastic pollution, concluding that while bioplastics offer some advantages, they are not a straightforward solution because many require industrial composting conditions and their environmental benefits depend heavily on end-of-life management.
Recent Advances in Sustainable Plastic Upcycling and Biopolymers
This review argues that sustainable biopolymers, produced from renewable resources via biological or hybrid chemical-biological processes, represent the most promising long-term solution to the plastic pollution crisis and climate-related concerns about fossil-fuel-derived plastics. Key challenges include achieving the mechanical properties, production costs, and large-scale manufacturing needed to replace conventional plastics.
Developing Bioderived CO2-Responsive Polymers as Alternatives to Petroleum-derived Polymers
Researchers examined the development of bioderived, CO2-responsive polymers as sustainable alternatives to petroleum-derived plastics, using life cycle assessment principles and green chemistry frameworks to guide material design. The work addresses the environmental harms of petroleum-based plastic production and low recycling rates, proposing bio-based responsive polymers as a route toward materials with reduced environmental impact across their full lifecycle.
A Sustainable Approach to Plastics; Bioplastics
This review examines bioplastics as a sustainable alternative to conventional plastics, comparing bio-based and biodegradable options against traditional plastics on environmental impact, biodegradability standards, and performance, finding that while bioplastics offer potential solutions to microplastic generation and soil toxicity, standardization and lifecycle assessment remain key challenges.
Bioplastic from Renewable Biomass: A Facile Solution for a Greener Environment
Researchers reviewed the science and applications of bioplastics — plastics made from renewable biological sources like starch, proteins, and algae — as a lower-impact alternative to conventional petroleum-based plastics that shed microplastics and persist in the environment. Bioplastics can match many properties of traditional plastics while offering biodegradability and a smaller carbon footprint, with especially promising uses in food packaging, agriculture, and medicine.
A Review of Bioplastics and Their Adoption in the Circular Economy
This review examines the current landscape of bioplastics, including bio-based and biodegradable materials, as potential alternatives to conventional fossil-fuel-derived plastics. Researchers assessed standards, life cycle analyses, and environmental performance of various bioplastic types. The study highlights that while bioplastics offer potential benefits for reducing fossil resource dependency, challenges remain around their actual environmental performance and integration into circular economy systems.
Bioplastics in the circular bioeconomy: Production pathways, biodegradation mechanisms, and environmental implications
This comprehensive review examines how bioplastics — plastics made from renewable biological sources — fit into a circular economy, covering how they are produced, how microorganisms break them down, and the environmental risks when degradation is incomplete. A key concern is that even bio-based plastics can form microplastics if they do not fully degrade in real-world conditions like marine or soil environments, meaning that simply switching to bioplastics does not automatically solve the microplastic pollution problem.
Prospective Biodegradable Plastics from Biomass Conversion Processes
This review surveys the potential of plant biomass as a source of biodegradable plastic alternatives, covering different types of bioplastics and their production processes. Replacing petroleum-based plastics with biodegradable bio-based materials would significantly reduce persistent microplastic pollution.