NanoCASE in den Medien
Nano! Nutzen und Visionen einer neuen Technologie
Interview Gute Toxikologie braucht Selbstkritik
Schulungen und Beratungen
- SIRIM Berhad Industrial Center of Innovation, Kulim Hi-Tech Park, Malaysia
- NANOTEC National Nanotechnology Center, Thailand Science Park, Pathum Thani, Thailand
Zeitungsbeiträge/Publikationen
Halappanavar, S., Ede, J.D., Mahapatra, I., Krug, H.F., Kuempel, E.D., Lynch, I., Vandebriel, R.J., and Shatkin, J.A. (2021a). A methodology for developing key events to advance nanomaterial-relevant adverse outcome pathways to inform risk assessment. Nanotoxicology 15, 289-310
Halappanavar, S., Ede, J.D., Shatkin, J.A., and Krug, H.F. (2019). A systematic process for identifying key events for advancing the development of nanomaterial relevant adverse outcome pathways. NanoImpact 15
Halappanavar, S., Nymark, P., Krug, H.F., Clift, M.J.D., Rothen-Rutishauser, B., and Vogel, U. (2021b). Non-Animal Strategies for Toxicity Assessment of Nanoscale Materials: Role of Adverse Outcome Pathways in the Selection of Endpoints. Small 17, e2007628
Kirkland, D., Aardema, M.J., Battersby, R.V., Beevers, C., Burnett, K., Burzlaff, A., Czich, A., Donner, E.M., Fowler, P., Johnston, H.J., et al. (2022). A weight of evidence review of the genotoxicity of titanium dioxide (TiO(2)). Regul Toxicol Pharmacol preprint online, 105263
Krug, H., and Kraegeloh, A. (2019). Nanosafety: Where Are We Now and Where Must We Go? Chem Res Toxicol 32, 535
Krug, H., and Kraegeloh, A. (2020). Special Issue on «Future Nanosafety». Chem Res Toxicol 33, 1037-1038
Krug, H.F. (2019). New tools in risk assessment of nanomaterials. NanoImpact 16
Krug, H.F. (2022a). Collection of Controlled Nanosafety Data – the CoCoN-Database, a tool to assess nanomaterial hazard. Nanomaterials 12, 441
Krug, H.F. (2022b). A Systematic Review on the Hazard Assessment of Amorphous Silica Based on the Literature From 2013 to 2018. Frontiers in Public Health 10, 902893
Krug, H.F., Bohmer, N., Kühnel, D., Marquardt, C., Nau, K., and Steinbach, C. (2018). The DaNa(2.0) Knowledge Base Nanomaterials-An Important Measure Accompanying Nanomaterials Development. Nanomaterials (Basel) 8, 204
Petersen, E.J., Hirsch, C., Elliott, J.T., Krug, H.F., Aengenheister, L., Arif, A.T., Bogni, A., Kinsner-Ovaskainen, A., May, S., Walser, T., et al. (2020). Cause-and-Effect Analysis as a Tool To Improve the Reproducibility of Nanobioassays: Four Case Studies. Chem Res Toxicol 33, 1039-1054
IUPAC Technical Report
Engineered nanomaterials and human health: Part 2. Applications and nanotoxicology. In Pure and Applied Chemistry, pp. 1325. (2018)IUPAC Technical Report
Engineered nanomaterials and human health: Part 1. Preparation, functionalization and characterization. In Pure and Applied Chemistry, pp. 1283.(2018)The uncertainty with nanosafety
Validity and reliability of published data. Colloids Surf B Biointerfaces 172, 113-117. (2018)Materials (Basel)
Environmental Impacts of Engineered Nanomaterials-Imbalances in the Safety Assessment of Selected Nanomaterials. Materials 11, 1444 (2018)- ALTEX – Alternatives to Animal Experimentation
From in vivo to in vitro: The medical device testing paradigm shift. ALTEX 34 479-500. (2017)
Angewandte Chemie Interantional Edition – open access
Diskussion des Artikels in den Medien:
Nanosicherheitsforschung – sind wir auf dem richtigen Weg? (11-2014)- Curia Vista: Die Empa erteilt Nanotoxikologie-Studien miserable Noten (12.12.2014 / 18.02.2015)
- St. Galler Tagblatt: Schlampereien schaden Nano (Focus) (12.11.2014)
Tagesanzeiger: Empa kritisiert unprofessionelle Versuche in der Nanoforschung (30.10.2014, Seite 34)
Kommentierung des OECD-Sponsorship-Programmes
Digging below the surface: the hidden quality of the OECD nanosilver dossier. Environ. Sci. : Nano online first (2017)Strategie zur „Green Toxicology“ von Nanomaterialien Green Toxicology
A strategy for sustainable chemical and material development. Environ. Sci. Eur. 29, 16 (4-2017)Internationale Gruppe beschreibt Nanomedizinentwicklungen:
Diverse Applications of Nanomedicine. ACS Nano 11, 2313-2381 (3-2017)Harmonisierung von Toxizitätstests
Toward achieving harmonization in a nano-cytotoxicity assay measurement through an interlaboratory comparison study. ALTEX 34, 201-218 (2017)Reliability for Nanosafety Research – Considerations on the Basis of a Comprehensive Literature Review. ChemBioEng Rev 2017, 4, No. 6, 331–338
Weitere Informationen zur Online-Wissensbank DaNa2.0:
An important measure accompanying nanomaterials development. Nanomaterials 8 204. (2018)
Environmental benefits and concerns on safety: communicating latest results on nanotechnology safety research-the project DaNa2.0. Environ Sci Pollut Res Int 24, 11120-11125
DaNa 2.0 – verlässliche Informationen zur Sicherheit von marktüblichen Nanomaterialien. Chemie Ingenieur Technik 89, 232-238 (12-2016)- Praxis d. Naturwissenschaften – Chemie in d. Schule
Nanotechnologie versus Nanotoxikologie – Wohin geht die Reise?, Heft 4, 2015