BOTTERO Jean-Yves
Institution:
Labex SERENADE
CEREGE
Function:
Deputy Director
Priority Research Actions:
PRA 1 - Ecodesign. Interfacial reactivity. Surface analysis. Aggregation versus dispersion modeling.
Serenade's publications:
- Bottero, J.Y., Rose, J., de Garidel, C., Masion, A., Deutsch, Th., Brochard, G., Carrière, M., Gontard, N., Wortham, H., Rabilloud, T., Salles, B., Dubosson, M., Cathala, B., Boutry, D., Ereskovsky, A., Auplat, C., Charlet, L., Heulin, T., Frejafon, E. and Lanone, S., 2017. SERENADE: safer and ecodesign research and education applied to nanomaterial development, the new generation of materials safer by design, Environmental Science : Nano, Advance Article,
- Kumar, N., Labille, L., Bossa, N., Auffan, M., Doumenq, P., Rose, J., Bottero, J-Y. 2017. Enhanced transportability of zero valent iron nanoparticles in aquifer sediments: surface modifications, reactivity, and particle traveling distances, Environmental Science Pollution Research,
- Hamidat et al., 2016
- Preaubert et al., 2016
- Vikesland et al., 2016
- Barton et al., 2015a
- Barton et al., 2015b
- Bottero et al., 2015
- Greco et al., 2015
- Tella et al., 2015
- Barton et al., 2014b
- Tella et al., 2014
- Artells et al., 2013
- Santaella et al., 2013, Biofutur
Monographs, Collective works, Proceedings, etc…
- Bottero, JY., 2016. The fate of engineered nanomaterials in sewage treatment plants and agriculture applications. In Nanomaterials in Waste Streams. Current knowledge on risks and impacts. OECD
- Environmental Application and Implication of Nanotechnology (Mc Graw Hill) and M.R Wiesner and J.Y Bottero eds.
Research interests:
Physical chemistry of organic, inorganic, and heterogeneous contaminants ; physicochemical properties of surfaces ; mechanisms of coagulation and flocculation ; water and wastewater treatment.
Address:
CEREGE - CNRS UMR 7330
Aix-Marseille Université
Europôle Méditerranéen de l'Arbois
BP 80
13545 AIX-EN-PROVENCE CEDEX 4
Phone:
+33 442 971 515
Email:
bottero@cerege.fr
Other:
Deputy Director - Interfacial reactivity. Surface analysis. Aggregation versus dispersion modeling.