Safe(r) by design guidelines for the nanotechnology industry

Araceli Sánchez  Jiménez; Raquel Puelles; Marta Perez-Fernandez; Leire Barruetabeña; Nicklas Raun Jacobsen; Blanca Suarez-Merino; Christian Micheletti; Nicolas Manier; Beatrice Salieri; Roland Hischier; Rositsa Tsekovska; Yordan Handzhiyski; Jacques Bouillard; Yohan Oudart; Karen S. Galea; Sean Kelly; Neeraj Shandilya; Henk Goede; Julio Gomez-Cordon; Keld Alstrup Jensen; Martie van Tongeren; Margarita D. Apostolova; Isabel Rodríguez Llopis

doi:10.1016/j.impact.2022.100385

Safe(r) by design guidelines for the nanotechnology industry

Araceli Sánchez Jiménez
, Raquel Puelles
, Marta Perez-Fernandez
, Leire Barruetabeña
, Nicklas Raun Jacobsen
, Blanca Suarez-Merino
, Christian Micheletti
, Nicolas Manier
, Beatrice Salieri
, Roland Hischier
, Rositsa Tsekovska
, Yordan Handzhiyski
, Jacques Bouillard
, Yohan Oudart
, Karen S. Galea
, Sean Kelly
, Neeraj Shandilya
, Henk Goede
, Julio Gomez-Cordon
, Keld Alstrup Jensen

Martie van Tongeren, Margarita D. Apostolova, Isabel Rodríguez Llopis

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Abstract

Expectations for safer and sustainable chemicals and products are growing to comply with the United Nations and European strategies for sustainability. The application of Safe(r) by Design (SbD) in nanotechnology implies an iterative process where functionality, human health and safety, environmental and economic impact and cost are assessed and balanced as early as possible in the innovation process and updated at each step. The EU H2020 NanoReg2 project was the first European project to implement SbD in six companies handling and/or manufacturing nanomaterials (NMs) and nano-enabled products (NEP). The results from this experience have been used to develop these guidelines on the practical application of SbD. The SbD approach foresees the identification, estimation, and reduction of human and environmental risks as early as possible in the development of a NM or NEP, and it is based on three pillars: (i) safer NMs and NEP; (ii) safer use and end of life and (iii) safer industrial production. The presented guidelines include a set of information and tools that will help deciding at each step of the innovation process whether to continue, apply SbD measures or carry out further tests to reduce uncertainty. It does not intend to be a prescriptive protocol where all suggested steps have to be followed to achieve a SbD NM/NEP or process. Rather, the guidelines are designed to identify risks at an early state and information to be considered to identify those risks. Each company adapts the approach to its specific needs and circumstances as company decisions influence the way forward.

Originalsprog	Engelsk
Tidsskrift	NanoImpact
Vol/bind	25
Sider (fra-til)	100385
ISSN	2452-0748
DOI	https://doi.org/10.1016/j.impact.2022.100385
Status	Udgivet - mar. 2022

Emneord

nano
partikler
kemisk arbejdsmiljø
toksikologi

Adgang til dokumentet

10.1016/j.impact.2022.100385

1 Igangværende

FFIKA: Fornyet fokus på forskning i kemisk arbejdsmiljø
Vogel, U. B. (Projektleder), Jensen, K. A. (Projektdeltager), Jensen, A. C. Ø. (Projektdeltager), Berthing, T. (Projektdeltager), Andersen, M. H. G. (Projektdeltager), Hougaard, K. S. (Projektdeltager), Clausen, P. A. (Projektdeltager), Frederiksen, M. (Projektdeltager), Mortensen, A. (Projektdeltager), Saber, A. T. (Projektdeltager), Jacobsen, N. R. (Projektdeltager), Akhtar, Y. (Projektdeltager), Asp, A.-K. (Projektdeltager), Abildtrup, A. (Projektdeltager), Tegner, U. (Projektdeltager), Terrida, E. B. (Projektdeltager), Guldbrandsen, M. (Projektdeltager), Kembouche, Y. (Projektdeltager), Kofoed-Sørensen, V. (Projektdeltager), Nielsen, S. H. (Projektdeltager), Sahlgren, N. M. (Projektdeltager), Fonseca, A. S. (Projektdeltager), Danielsen, P. H. (Projektdeltager), Sørli, J. B. (Projektdeltager), Hadrup, N. (Projektdeltager), Ardenkjær-Skinnerup, J. (Projektdeltager), Nøjgaard, J. N. K. (Projektdeltager), Jørgensen, A. K. (Projektdeltager), Gutierrez, C. A. T. (Projektdeltager) & Brostrøm, A. (Projektdeltager)
01/01/2020 → 31/12/2026
Projekter: Projekt › Forskning

1 Rapport

Training practices on nanomaterials and advanced materials for workers safety and health: stakeholders consultation report
Boccuni, F., Ervik, T., Ferrante, R., Fonseca, A. S., Fransman, W., Iacopino, D., Jensen, K., Saavedra, R. J., Kelly, S., Pingue, P., Porcari, A., Prodanov, D., Jiménez, A. S., Shandilya, N., Tombolini, F. & Zienolddiny, S., mar. 2023, Partnership for European Research in Occupational Safety and Health - PEROSH.
Publikation: Bog/antologi/afhandling/rapport › Rapport › Forskning

Citationsformater

Jiménez, A. S., Puelles, R., Perez-Fernandez, M., Barruetabeña, L., Jacobsen, N. R., Suarez-Merino, B., Micheletti, C., Manier, N., Salieri, B., Hischier, R., Tsekovska, R., Handzhiyski, Y., Bouillard, J., Oudart, Y., Galea, K. S., Kelly, S., Shandilya, N., Goede, H., Gomez-Cordon, J., ... Llopis, I. R. (2022). Safe(r) by design guidelines for the nanotechnology industry. NanoImpact, 25, 100385. https://doi.org/10.1016/j.impact.2022.100385

@article{739b48f7705e41aa82e2294b5fdebdc7,

title = "Safe(r) by design guidelines for the nanotechnology industry",

abstract = "Expectations for safer and sustainable chemicals and products are growing to comply with the United Nations and European strategies for sustainability. The application of Safe(r) by Design (SbD) in nanotechnology implies an iterative process where functionality, human health and safety, environmental and economic impact and cost are assessed and balanced as early as possible in the innovation process and updated at each step. The EU H2020 NanoReg2 project was the first European project to implement SbD in six companies handling and/or manufacturing nanomaterials (NMs) and nano-enabled products (NEP). The results from this experience have been used to develop these guidelines on the practical application of SbD. The SbD approach foresees the identification, estimation, and reduction of human and environmental risks as early as possible in the development of a NM or NEP, and it is based on three pillars: (i) safer NMs and NEP; (ii) safer use and end of life and (iii) safer industrial production. The presented guidelines include a set of information and tools that will help deciding at each step of the innovation process whether to continue, apply SbD measures or carry out further tests to reduce uncertainty. It does not intend to be a prescriptive protocol where all suggested steps have to be followed to achieve a SbD NM/NEP or process. Rather, the guidelines are designed to identify risks at an early state and information to be considered to identify those risks. Each company adapts the approach to its specific needs and circumstances as company decisions influence the way forward.",

keywords = "nano, partikler, kemisk arbejdsmilj{\o}, toksikologi, nanoparticles, safer by design, partikler, nano safety",

author = "Jim{\'e}nez, \{Araceli S{\'a}nchez\} and Raquel Puelles and Marta Perez-Fernandez and Leire Barruetabe{\~n}a and Jacobsen, \{Nicklas Raun\} and Blanca Suarez-Merino and Christian Micheletti and Nicolas Manier and Beatrice Salieri and Roland Hischier and Rositsa Tsekovska and Yordan Handzhiyski and Jacques Bouillard and Yohan Oudart and Galea, \{Karen S.\} and Sean Kelly and Neeraj Shandilya and Henk Goede and Julio Gomez-Cordon and Jensen, \{Keld Alstrup\} and \{van Tongeren\}, Martie and Apostolova, \{Margarita D.\} and Llopis, \{Isabel Rodr{\'i}guez\}",

year = "2022",

month = mar,

doi = "10.1016/j.impact.2022.100385",

language = "English",

volume = "25",

pages = "100385",

journal = "NanoImpact",

issn = "2452-0748",

publisher = "Elsevier BV",

}

Jiménez, AS, Puelles, R, Perez-Fernandez, M, Barruetabeña, L, Jacobsen, NR, Suarez-Merino, B, Micheletti, C, Manier, N, Salieri, B, Hischier, R, Tsekovska, R, Handzhiyski, Y, Bouillard, J, Oudart, Y, Galea, KS, Kelly, S, Shandilya, N, Goede, H, Gomez-Cordon, J, Jensen, KA, van Tongeren, M, Apostolova, MD & Llopis, IR 2022, 'Safe(r) by design guidelines for the nanotechnology industry', NanoImpact, bind 25, s. 100385. https://doi.org/10.1016/j.impact.2022.100385

TY - JOUR

T1 - Safe(r) by design guidelines for the nanotechnology industry

AU - Jiménez, Araceli Sánchez

AU - Puelles, Raquel

AU - Perez-Fernandez, Marta

AU - Barruetabeña, Leire

AU - Jacobsen, Nicklas Raun

AU - Suarez-Merino, Blanca

AU - Micheletti, Christian

AU - Manier, Nicolas

AU - Salieri, Beatrice

AU - Hischier, Roland

AU - Tsekovska, Rositsa

AU - Handzhiyski, Yordan

AU - Bouillard, Jacques

AU - Oudart, Yohan

AU - Galea, Karen S.

AU - Kelly, Sean

AU - Shandilya, Neeraj

AU - Goede, Henk

AU - Gomez-Cordon, Julio

AU - Jensen, Keld Alstrup

AU - van Tongeren, Martie

AU - Apostolova, Margarita D.

AU - Llopis, Isabel Rodríguez

PY - 2022/3

Y1 - 2022/3

N2 - Expectations for safer and sustainable chemicals and products are growing to comply with the United Nations and European strategies for sustainability. The application of Safe(r) by Design (SbD) in nanotechnology implies an iterative process where functionality, human health and safety, environmental and economic impact and cost are assessed and balanced as early as possible in the innovation process and updated at each step. The EU H2020 NanoReg2 project was the first European project to implement SbD in six companies handling and/or manufacturing nanomaterials (NMs) and nano-enabled products (NEP). The results from this experience have been used to develop these guidelines on the practical application of SbD. The SbD approach foresees the identification, estimation, and reduction of human and environmental risks as early as possible in the development of a NM or NEP, and it is based on three pillars: (i) safer NMs and NEP; (ii) safer use and end of life and (iii) safer industrial production. The presented guidelines include a set of information and tools that will help deciding at each step of the innovation process whether to continue, apply SbD measures or carry out further tests to reduce uncertainty. It does not intend to be a prescriptive protocol where all suggested steps have to be followed to achieve a SbD NM/NEP or process. Rather, the guidelines are designed to identify risks at an early state and information to be considered to identify those risks. Each company adapts the approach to its specific needs and circumstances as company decisions influence the way forward.

AB - Expectations for safer and sustainable chemicals and products are growing to comply with the United Nations and European strategies for sustainability. The application of Safe(r) by Design (SbD) in nanotechnology implies an iterative process where functionality, human health and safety, environmental and economic impact and cost are assessed and balanced as early as possible in the innovation process and updated at each step. The EU H2020 NanoReg2 project was the first European project to implement SbD in six companies handling and/or manufacturing nanomaterials (NMs) and nano-enabled products (NEP). The results from this experience have been used to develop these guidelines on the practical application of SbD. The SbD approach foresees the identification, estimation, and reduction of human and environmental risks as early as possible in the development of a NM or NEP, and it is based on three pillars: (i) safer NMs and NEP; (ii) safer use and end of life and (iii) safer industrial production. The presented guidelines include a set of information and tools that will help deciding at each step of the innovation process whether to continue, apply SbD measures or carry out further tests to reduce uncertainty. It does not intend to be a prescriptive protocol where all suggested steps have to be followed to achieve a SbD NM/NEP or process. Rather, the guidelines are designed to identify risks at an early state and information to be considered to identify those risks. Each company adapts the approach to its specific needs and circumstances as company decisions influence the way forward.

KW - nano

KW - partikler

KW - kemisk arbejdsmiljø

KW - toksikologi

KW - nanoparticles

KW - safer by design

KW - partikler

KW - nano safety

U2 - 10.1016/j.impact.2022.100385

DO - 10.1016/j.impact.2022.100385

M3 - Journal article

SN - 2452-0748

VL - 25

SP - 100385

JO - NanoImpact

JF - NanoImpact

ER -

Safe(r) by design guidelines for the nanotechnology industry

Abstract

Emneord

Adgang til dokumentet

Projekter

FFIKA: Fornyet fokus på forskning i kemisk arbejdsmiljø

Publikation

Training practices on nanomaterials and advanced materials for workers safety and health: stakeholders consultation report

Citationsformater