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61,005 resultsShowing papers similar to Method to incorporate green chemistry principles in early-stage product design for sustainability: case studies with personal care products
ClearRelease Assessment Methodology for Safe Sustainable and Recyclable by-Design Practices for Plastics: The Epoxy-Resin Composite Case Study
Researchers developed a release assessment methodology for epoxy resin composites to evaluate whether they meet safe and sustainable by-design criteria across their lifecycle. The framework tested for chemical release during manufacturing, use, and end-of-life, providing a standardized approach to green plastic design.
First Steps Toward Sustainable Circular Uses of Chemicals: Advancing the Assessment and Management Paradigm
This article advances a framework for sustainable circular use of chemicals, proposing updated assessment and management approaches to reduce chemical hazards while enabling circularity in industrial and consumer product systems.
An integrated approach to address the biodegradability of cosmetic formulations as part of a corporate sustainability strategy
Not relevant to microplastics — this paper describes a corporate sustainability framework for evaluating and improving the biodegradability of cosmetic product portfolios, helping companies prioritize reformulation of high-impact products and ingredients.
Sustentabilidade no processo produtivo da indústria cosmética: uma revisão da literatura
This systematic literature review examined sustainability practices in the cosmetics industry, including the growing concern over microplastic ingredients in cosmetic products. The review identified trends toward greener formulations, sustainable packaging, and consumer-driven pressure for environmental responsibility. The cosmetics sector is increasingly recognizing its environmental impact and exploring alternatives to synthetic microplastics.
Minimizing the environmental impacts of plastic through eco-design
Researchers developed a sustainability metric for eco-designing plastic products with low environmental persistence by integrating the environmental degradation rate of plastics into established material selection frameworks. The approach allows designers to compare materials on both functional performance and environmental persistence using material property indices.
Research on Application of Environmental Protection Concept in Modern Product Design
This paper explores how principles of environmental sustainability are being integrated into modern product design, examining how green design concepts can reduce ecological impact while meeting consumer needs. The analysis calls for applying low-carbon, circular economy values throughout the product development process.
Design framework for circular and sustainable packaging design
Researchers developed a novel packaging design framework integrating circularity and sustainability (C&S) criteria using literature review, expert brainstorming, and field visits. The framework addresses conflicts between sustainability and functional requirements and provides practical iterative strategies for packaging designers.
Evaluation of the environmental impact of a plastic sprayer through life cycle assessment: an industrial case study
Researchers used life cycle assessment to evaluate the environmental footprint of manufacturing plastic trigger sprayers. The analysis identified raw material extraction and injection molding as the most environmentally burdensome production stages. The findings can guide manufacturers toward greener design choices for household plastic products.
Eco-Designing Cosmetic Products while Preserving the Sensorial-Application Properties: An Instrumental Approach toward Sustainable Formulations
Researchers explored eco-design approaches for reformulating cosmetic skin care products using natural and biodegradable ingredients. The study demonstrated that synthetic texturizers like nylon-12 and PMMA could be replaced with starch, maltodextrin, and silica while maintaining sensorial application properties, supporting the reduction of microplastic-generating ingredients in personal care products.
Sustainable Innovation Practices in the Green Cosmetic Sector: A Brand Perspective
This study examined sustainability innovation practices in the green cosmetics sector from a brand perspective, focusing on how companies integrate sustainable packaging, ingredient sourcing, and microplastic-free formulations. The analysis found that leading green cosmetic brands are adopting holistic sustainability strategies beyond just product formulation changes.
Polymers and the eco-design transformation. A cosmetic perspective
This review examines the role of polymers in cosmetic products and strategies for eco-design transformation, analyzing the development of environmentally friendly polymer alternatives that maintain cosmetic performance and safety while reducing microplastic pollution, with attention to biodegradability, renewable sourcing, and regulatory requirements across the product lifecycle.
Research on the Performance of Cosmetics Packaging Materials under the Background of Green Transformation
Researchers systematically analyzed cosmetics packaging materials from three dimensions — material properties, production processes, and recycling pathways — in the context of the global green transformation push. The study identified performance optimization strategies for sustainable cosmetic packaging, highlighting trade-offs between sensory appeal and environmental responsibility.
Strategies for Dealing with Substances of Concern in Product Design – a Review of Five Cases
This review examined design strategies for dealing with substances of concern in products, covering approaches to substitute, minimize, or eliminate hazardous chemicals throughout the product lifecycle. The authors identified regulatory frameworks and practical design tools to guide manufacturers toward safer material choices.
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.
Combining Flexible and Sustainable Design Principles for Evaluating Designs: Textile Recycling Application
Researchers developed a framework combining flexible and sustainable design principles to evaluate textile recycling technologies. The study addresses the growing environmental burden of textile waste in the U.S., where over 15 million tons are discarded annually with less than 15% recycled, contributing to microplastic pollution and greenhouse gas emissions. The proposed evaluation method aims to help identify recycling approaches that are both economically viable and environmentally responsible.
Why Aim Toward a PFAS-free Future?
This paper is not about microplastics — it reviews the environmental persistence, toxicity, and regulatory challenges associated with per- and polyfluoroalkyl substances (PFAS), the so-called 'forever chemicals,' and argues for transitioning industry toward safer substitutes using green chemistry principles.
Towards standard methods for the classification of aquatic toxicity for biologically active household chemicals (BAHC) present in plastics, pharmaceuticals, and cosmetic products
Researchers proposed a standardized testing method using marine invertebrate models to assess the aquatic toxicity of biologically active household chemicals found in plastics, pharmaceuticals, and cosmetics, including substances with very low water solubility.
Combining Eco-Design and LCA as Decision-Making Process to Prevent Plastics in Packaging Application
Researchers applied simultaneous eco-design and life cycle assessment (LCA) to help a small food packaging company redesign its frozen food packaging to reduce plastic use and microplastic dispersal into marine environments. The case study demonstrated that integrating circular economy principles and LCA from the design stage enabled more effective material substitution decisions than applying these tools sequentially.
From Menstrual Care to Environmental Care
This study examines the intersection of menstrual care product design and environmental sustainability, exploring how design choices in menstrual products contribute to plastic pollution and microplastic release. The work investigates design alternatives and user perspectives within the context of transitioning from menstrual care toward more environmentally responsible product systems.
Green Chemistry Strategies for Mitigating Microplastic Pollution in Aquatic Environments
Researchers reviewed green chemistry strategies that can reduce microplastic pollution at the source, including the development of biodegradable polymers, solvent-free synthesis routes, and the use of renewable feedstocks. The review frames chemical innovation as a key tool for pollution prevention.
Rational Design of Sustainable Liquid Microcapsules for Spontaneous Fragrance Encapsulation
Researchers designed sustainable liquid microcapsules for fragrance encapsulation using bio-based rather than petroleum-derived materials, reducing environmental impact. This approach could replace conventional capsules that shed microplastic particles into wastewater when rinsed off personal care products.
Upcycling Systems Design, Developing a Methodology through Design
This paper proposes a new methodology for upcycling systems design that bridges circular economy business models with sustainable material innovation, aiming to reduce the environmental impact of products by integrating ecological considerations early in the design process.
Utilization of deep eutectic solvents in chemically recycled polymeric resins for multielement determination
Researchers developed green analytical methods using deep eutectic solvents (DES) and natural deep eutectic solvents (NADES) for multielement determination in chemically recycled polymeric resins, applying green analytical chemistry principles to minimize environmental and analyst risk.
An alternative approach to risk rank chemicals on the threat they pose to the aquatic environment
This paper proposed an alternative approach for ranking chemicals by the threat they pose to aquatic ecosystems, integrating exposure and hazard data in a more ecologically meaningful way than standard risk quotient methods.