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Research and development projects on nanomaterials

Nano structures

Nano structures are more than 1000 times smaller than the diameter of an human hair
Source: eugenesergeev / Fotolia.com

The German Federal Environment Agency (UBA) is currently funding and guiding the research and development projects on nanomaterials and other advanced materials listed below. For more information on these projects please refer to the research database Umweltforschungsdatenbank UFORDAT in German and the corresponding number.

23.04.2025

OECD Test Guideline development for nanomaterials: Transformation of nanomaterials under environmental conditions

In addition to their agglomeration (dispersion stability) and dissolution, whether and how nanomaterials are transformed over time via abiotic processes is also important for their behaviour and fate in the environment. This knowledge is significant to understand in which form and amount engineered nanomaterials are present in the environment. The research project aims to develop an OECD test guideline for a quantitative determination of the abiotic transformation processes of nanomaterials, taking into account relevant environmental parameters. The work builds on ongoing activities for the development of an OECD Guidance Document on environmental abiotic transformation of nanomaterials.
In addition, the project will also include investigations to validate a possible test protocol for determining the heteroagglomeration of nanomaterials under consideration of relevant environmental parameters. The basis for this will be the existing OECD test guideline 318 for the determination of dispersion stability of nanomaterials under environmental conditions, which is currently limited to the investigation of homoagglomeration of nanomaterials. (UFORDAT No. 01088269)

Examination and further development of strategic approaches for dealing with advanced materials in chemical safety“ – Study on nanocarriers and their environmental behaviour

The project considers nanocarriers as a case study for advanced materials that pose challenges for risk assessment under EU chemicals legislation. In the project, literature research on existing nanocarriers or those under development and their (potential) applications will be carried out. From the overview thus obtained, three nanocarrier types and the active substances they contain will be selected as examples for further investigations. These nanocarriers are expected to pose particular challenges for risk assessment in terms of material properties, environmental behavior and specific applications (e.g. in medicine or agriculture). For the selected nanocarriers, test strategies will be (further) developed and implemented in the laboratory in order to investigate their environmental behaviour and the potential release of the transported active ingredient under environmentally relevant conditions in more detail. The focus here is on assessing the mobility and degradability of the nanocarrier in aquatic systems as well as the non-intentional release of the active ingredient. The objectives of this research project are: (1) to discuss the preliminary project results in technical meetings with selected stakeholders in order to (2) identify knowledge gaps with regard to the environmental risk assessment of nanocarriers and (3) to develop proposals for the adaptation of existing concepts for assessment. In this way, the project should contribute to the development of a comprehensive risk assessment of the environmental behaviour of nanocarriers. (UFORDAT No. 01103855)

Investigation of ecotoxicological effects of fibrous and platelet-shaped advanced materials for deriving adapted testing strategies

Fibrous and platelet-shaped advanced materials, such as carbon nanotubes, graphenes or MXenes, exhibit exceptional mechanical, electronic, optical and chemical properties. They are therefore being investigated for a variety of applications. These include, for example, optoelectronic applications (e.g. solar cells, light-emitting diodes), sensor technology, composite materials (e.g. for electrical conductivity, EMC shielding), energy storage, catalysts or textiles (e.g. for electrical conductivity, flame retardancy). Fibrous and platelet-like advanced materials may pose methodological challenges for regulatory risk assessment under EU chemical legislation due to their properties. The mechanisms contributing to the ecotoxic effects of these materials are poorly understood. In addition, there is concern that potential ecotoxic effects of the materials are not adequately elucidated via classical methods. Thus, there is a need to develop appropriate testing strategies to identify relevant mechanisms and (sub)lethal effects that allow a specific assessment of the ecotoxic potential of fibrous and platelet advanced materials. In this project, specific mechanisms of action and relevant (sub)lethal effects of these materials will be investigated based on a literature review. Based on that it will be derived which test systems must be used in order to be able to make specific statements on the ecotoxicology of these materials. Selected test systems will be tested and adapted using selected fibrous and platelet materials as examples. In this way, recommendations will be derived as to how non-classical effects could be taken into account in the environmental risk assessment of such materials and what further steps would have to be taken.

Final reports of research and development projects

Research Reports Nanomaterials

  • 2025

    Advanced materials for the energy transition Standardization of Methods on the Fate and Behavior of Nanomaterials in Environmental Media - Dissolution and Dissolution Rate

  • 2024

    Nanocarrier - Part I: Overview and categorization of nanocarriers

  • 2021

    Development of a specific OECD Test Guideline on Particle Size and Particle Size Distribution of Nanomaterials

  • 2020

    Development of a method to determine the bioaccumulation of manufactured nanomaterials in filtering organisms (Bivalvia) Untersuchungen zur möglichen Freisetzung von Nanopartikeln bei der Ablagerung und bodenbezogenen Anwendung von mineralischen Abfällen Developing a Guidance Document for the testing of dissolution and dispersion stability of nanomaterials, and the use of the data for further environmental testing and assessment strategies

  • 2019

    Analysis of studies and research projects regarding the detection of nanomaterials in different environmental compartments and deduction of need for action regarding method development

  • 2017

    Considerations about the relationship of nanomaterial’s physical-chemical properties and aquatic toxicity for the purpose of grouping Clarification of methodical questions regarding the investigation of nanomaterials in the environment

  • 2016

    Untersuchung möglicher Umweltauswirkungen bei der Entsorgung nanomaterialhaltiger Abfälle in Abfallbehandlungsanlagen Zusammenstellung der Ergebnisse des Sponsorship Programms zu nanoskaligem Titandioxid der OECD Working Party on Manufactured Nanomaterials

  • 2015

    Integrative test strategy for the environmental assessment of nanomaterials

  • 2014

    Assessment of Impacts of a European Register of Products Containing Nanomaterials Carcinogenicity and Mutagenicity of Nanoparticles – Assessment of Current Knowledge as Basis for Regulation Environmental hazard of selected TiO2 nanomaterials under consideration of relevant exposure scenarios Toxikologie von Nanomaterialien, Wirkmechanismen und Kanzerogenität Untersuchung der Auswirkungen ausgewählter nanotechnischer Produkte auf den Rohstoff- und Energiebedarf

  • 2013

    Investigation of two widely used nanomaterials (TiO2, Ag) for ecotoxicological long-term effects Investigation of widely used nanomaterials (TiO2, Ag) and gold nanoparticles in standardized ecotoxicological tests Mobility, fate and behavior of TiO2 nanomaterials in different environmental media

  • 2012

    Analysis and Strategic Management of Nanoproducts with Regard to their Sustainability Potential Fate and behaviour of TiO2 nanomaterials in the environment, influenced by their shape, size and surface area

  • 2010

    Einsatz von Nanomaterialien als Alternative zu biozidhaltigen Antifouling-Anstrichen und deren Umweltauswirkungen Emission von Nanopartikeln aus ausgewählten Produkten in ihrem Lebenszyklus Entlastungseffekte für die Umwelt durch nanotechnische Verfahren und Produkte Quantitative biokinetic analysis of radioactively labelled, inhaled Titanium dioxide Nanoparticles in a rat model Untersuchung des Einsatzes von Nanomaterialien im Umweltschutz

  • 2008

    Beurteilung der Gesamtumweltexposition von Silberionen aus Biozid-Produkten

  • 2007

    Rechtsgutachten Nano-Technologien - ReNaTe Technisches Vorgehen bei der Testung von Nanopartikeln Zukunftsmarkt Nachhaltige Wasserwirtschaft und Nanotechnologie

  • 2006

    Verteilung, Eigenschaften und Verhalten von Aerosolpartikeln

Links

  • Good to know
  • Dana 2.0
  • EU NanoSafety Cluster
  • ProSafe results Repository
  • Prosafe Final Conference Report
Article:

Tags:
 nanomaterials  nanotechnology  Umweltforschungsdatenbank  UFORDAT Top

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Source URL (modified on 23.06.2025):https://www.umweltbundesamt.de/en/topics/chemicals/nanotechnology/research-development-projects-on-nanomaterials