European Chemicals Agency - ECJan 27, 2025

RT by @EU_ECHA: #EUON - Read our latest Nanopinion guest column with Dr.-Ing. Kathrin Schwirn and Dr. Doris VΓΆlker. They explain the impact of advanced materials on addressing global issues like climate change, biodiversity loss, and pollution.

πŸ”—https://fcld.ly/nanopdec24t
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https://nitter.privacydev.net/EU_ECHA/status/1875174037225185509#m

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European Chemicals Agency - ECAug 3, 2023

πŸ“’ Before you hit the sand, make sure you know what's in your bag! Unveil the secrets of your beach bag! 🏝️
Our informative infographic highlights the presence of nanomaterials in cosmetics.
πŸ”—https://fcld.ly/n9mevoh
#EUON #ChemicalsInOurLife #NanosInCosmeticsEU

πŸ¦πŸ”—: https://n.respublicae.eu/EU_ECHA/status/1684111310177333248

Nanomaterials in cosmetics - ECHA

European Chemicals Agency - ECAug 3, 2023

πŸ“’ Before you hit the sand, make sure you know what's in your bag! Unveil the secrets of your beach bag! 🏝️ Our informative infographic highlights the presence of nanomaterials in cosmetics.
πŸ”—https://fcld.ly/n9mevoh
#EUON #ChemicalsInOurLife #NanosInCosmeticsEU

πŸ¦πŸ”—: https://n.respublicae.eu/EU_ECHA/status/1687053488881020928

Nanomaterials in cosmetics - ECHA

European Chemicals Agency - ECAug 3, 2023

Visit the updated NanoData!
This searchable database at #EUON contains info on different products, research projects, publications, patents and companies related to nanomaterials.
πŸ”— https://fcld.ly/nanodataupdatet

πŸ¦πŸ”—: https://n.respublicae.eu/EU_ECHA/status/1687097281726873600

Nanodata - EUON

European Chemicals Agency - ECJul 20, 2023

πŸ“’ Before you hit the sand, make sure you know what's in your bag!
Unveil the secrets of your beach bag essentials! 🏝️ Our infographic highlights the presence of nanomaterials in cosmetics.
πŸ”— https://fcld.ly/n9mevoh
#EUON #ChemicalsInOurLife #NanosInCosmeticsEU https://t.co/EgHlDW1An3

πŸ¦πŸ”—: https://n.respublicae.eu/EU_ECHA/status/1681952157480673280

Nanomaterials in cosmetics - ECHA

European Chemicals Agency - ECJun 25, 2023

#EUON - Our latest Nanopinion is now online.
Read the guest column by Dr Ricki Rosenfeldt on dispersion stability and dissolution rate studies, and learn the most important aspects to consider before starting them on nanomaterials. #Nanomaterials
πŸ”—https://fcld.ly/nanopinionjun23t https://t.co/UgwC41NvD8

πŸ¦πŸ”—: https://n.respublicae.eu/EU_ECHA/status/1672167666793037825

Nanopinion - ECHA

European Chemicals Agency - ECMay 23, 2023

#EUON - Read our latest Nanopinion with Professor Bengt Fadeel. He writes about the novel interactions between #nanomaterials and the immune system, based on his experiments with zebrafish and discoveries about the gut microbiome and 2D materials.

πŸ”—https://fcld.ly/nanopinionmay23t

πŸ¦πŸ”—: https://n.respublicae.eu/EU_ECHA/status/1661044292771627008

Nanopinion - ECHA

European Chemicals Agency - ECApr 24, 2023

Are you aware of information gaps related to #nanomaterials? The #EUON is now looking for topics for its upcoming studies. Submit your proposal by 27 April and potentially contribute to the work of the observatory.

πŸ”—https://fcld.ly/euonstudies2023t

πŸ¦πŸ”—: https://n.respublicae.eu/EU_ECHA/status/1650491064724213761

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European Chemicals Agency - ECApr 11, 2023

Are you aware of information gaps related to #nanomaterials? The #EUON is now looking for topics for its upcoming studies.

πŸ—“οΈSubmit your proposal by 27 April and potentially contribute to the work of the observatory.

πŸ”—https://fcld.ly/euonstudies2023t

πŸ¦πŸ”—: https://n.respublicae.eu/EU_ECHA/status/1645721763987193857

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European Chemicals Agency - ECMar 26, 2023

#EUON - Check out the latest Nanopinion post, featuring a guest column by professor JenΕ‘ Gubicza. He explains the benefits of utilizing X-ray line profile analysis to observe the crystal defect structure in nanomaterials.

πŸ”—https://fcld.ly/euonnanopiniont

πŸ¦πŸ”—: https://n.respublicae.eu/EU_ECHA/status/1639960425000235008

A RELIABLE AND NON-DESTRUCTIVE EXPERIMENTAL TECHNIQUE CAN MONITOR THE CRYSTAL DEFECT STRUCTURE IN NANOMATERIALS - EUON - ECHA

Nanostructured materials are in the forefront of materials science due to their unique properties, such as improved mechanical and magnetic performances. The properties of nanomaterials can be tuned by changing the chemical composition and/or the microstructure, such as the size of grains, as well as the type and density of crystal defects inside the grains. Defects disrupt the ideal periodic arrangement of atoms in crystallites. This disruption is known as lattice strain. For instance, dislocations and planar faults are frequently formed crystal defects for which considerable lattice strain is observed in one and two dimensions, respectively. In other words, dislocations are line defects and planar faults are defects that extend along a crystal plane. Both defects have a significant influence of the deformation behavior of materials [1]. Crystal defects in nanomaterials form naturally during their processing. However, their types, amount and spatial arrangement can be modified by changing the processing conditions. This route of tailoring the properties of nanomaterials is called as β€œcrystal defect engineering”.