The SAbyNA Platform: A Guidance Tool to support industry in the implementation of safe and sustainable by design concept for nanomaterials, processes and nano-enabled products

IF 5.1 2区环境科学与生态学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Environmental Science: Nano Pub Date : 2025-07-10 DOI:10.1039/d5en00312a

Virginia Cazzagon, Ralph Vanhauten, James Hanlon, Sánchez Jiménez Araceli, Samuel Harrison, Melanie Auffan, Hedwig M. Braakhuis, Matthew Boyles, Ana Candalija, Alberto Katsumiti, Isabel Rodriguez-Llopis, Julia Catalan, Richard Cross, Elma Lahive, Elise Morel, Felice Simeone, Camilla Delpivo, Simon Clavaguera, Richard Seddon, Apostolos Salmatonidis, Leire Barruetabeña, Lion Traas, Davide Lotti, Claire Mays, Socorro Vazquez

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引用次数: 0

Abstract

Simple, cost-effective and reliable methods are needed for pragmatic and flexible safe and sustainable evaluations at early stages of product (chemical/material) development. This is especially true for nanoforms and nano-enabled products, where guidance on the application of validated methods and tools for the assessment and management of safety and sustainability is still lacking. The SAbyNA Guidance Platform fills these gaps, integrating i) informative modules covering the needs of all stakeholder profiles (i.e., industry, consultants, RTOs, regulatory bodies) by guiding them in the choice of methods, models and tools for exposure and hazard assessment, as well as in the selection of specific Safe-by-Design interventions; and ii) assessment modules for a screening-level evaluation of environmental sustainability and costs, and for a screening and detailed safety assessment of nanoforms and nano-enabled products along their life cycle. The potential of this digital tool to support different stakeholders towards safer and more sustainable developments is demonstrated in a real case study: a nano-enabled 3D-printed vacuum cleaner plastic component with antistatic properties (single walled carbon nanotubes-polycarbonate composite parts). The paper shows how a user inputs data to perform a screening assessment on the additive manufacturing case study and the digital platform provides the user with some Safe-by-Design recommendations, such as reducing the fiber length or rigidity, or by changing process parameters to reduce emissions. Hazard, exposure, costs, sustainability and functionality case study data were added in the detailed assessment module of the Platform to check whether the implemented Safe-by-Design intervention was able to improve the safety profile of this nano-enabled product without affecting sustainability and functionality performances. The study also demonstrated the added value of using the SAbyNA Guidance tool at the early stage of the nano-enabled product development for the quantification and visualization of safety, sustainability, cost and functionality aspects of nano-enabled products and processes.

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SAbyNA平台：一个指导工具，支持工业实施安全和可持续的纳米材料、工艺和纳米产品的设计理念

在产品（化学/材料）开发的早期阶段，需要简单、具有成本效益和可靠的方法进行务实、灵活、安全和可持续的评价。对于纳米形式和纳米产品来说尤其如此，在这些领域，仍然缺乏关于应用经过验证的方法和工具来评估和管理安全性和可持续性的指导。SAbyNA指导平台填补了这些空白，整合了i)涵盖所有利益相关者（即行业、顾问、rto、监管机构）需求的信息模块，指导他们选择暴露和危害评估的方法、模型和工具，以及选择具体的设计安全干预措施；ii)评估模块，用于环境可持续性和成本的筛选级评估，以及纳米形式和纳米产品在其生命周期中的筛选和详细安全性评估。这个数字工具在支持不同利益相关者实现更安全和更可持续发展方面的潜力在一个真实的案例研究中得到了证明：具有抗静电性能的纳米3d打印真空吸尘器塑料部件（单壁碳纳米管-聚碳酸酯复合材料部件）。该论文展示了用户如何输入数据以对增材制造案例研究进行筛选评估，数字平台为用户提供了一些安全设计建议，例如减少纤维长度或刚度，或通过改变工艺参数来减少排放。在平台的详细评估模块中添加了危害、暴露、成本、可持续性和功能案例研究数据，以检查实施的“设计安全”干预措施是否能够在不影响可持续性和功能性能的情况下提高这种纳米产品的安全性。该研究还证明了在纳米产品开发的早期阶段使用SAbyNA指导工具的附加价值，可以对纳米产品和工艺的安全性、可持续性、成本和功能方面进行量化和可视化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Environmental Science: Nano CHEMISTRY, MULTIDISCIPLINARY-ENVIRONMENTAL SCIENCES

CiteScore

12.20

自引率

5.50%

发文量

290

审稿时长

2.1 months

期刊介绍： Environmental Science: Nano serves as a comprehensive and high-impact peer-reviewed source of information on the design and demonstration of engineered nanomaterials for environment-based applications. It also covers the interactions between engineered, natural, and incidental nanomaterials with biological and environmental systems. This scope includes, but is not limited to, the following topic areas: Novel nanomaterial-based applications for water, air, soil, food, and energy sustainability Nanomaterial interactions with biological systems and nanotoxicology Environmental fate, reactivity, and transformations of nanoscale materials Nanoscale processes in the environment Sustainable nanotechnology including rational nanomaterial design, life cycle assessment, risk/benefit analysis