T
T. Jean Daou
Researcher at University of Upper Alsace
Publications - 105
Citations - 2277
T. Jean Daou is an academic researcher from University of Upper Alsace. The author has contributed to research in topics: Zeolite & Catalysis. The author has an hindex of 21, co-authored 94 publications receiving 1848 citations. Previous affiliations of T. Jean Daou include Centre national de la recherche scientifique & University of Strasbourg.
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Highly Luminescent CuInS2/ZnS Core/Shell Nanocrystals: Cadmium-Free Quantum Dots for In Vivo Imaging
TL;DR: In this article, strongly luminescent core/shell nanocrystals were synthesized from copper iodide, indium acetate, zinc stearate, and dodecanethiol as starting compounds in octadecene solvent.
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Porous sorbents for the capture of radioactive iodine compounds: a review
Joffrey Huve,Joffrey Huve,Andrey Ryzhikov,Andrey Ryzhikov,Habiba Nouali,Habiba Nouali,Virginie Lalia,Grégoire Augé,T. Jean Daou,T. Jean Daou +9 more
TL;DR: In this paper, the authors focus on porous sorbents for the capture and storage of radioactive iodine compounds, and discuss the concerns with, and limitations of, the existing porosity with respect to operating conditions and their capacities for iodine capture.
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Effect of Poly(ethylene glycol) Length on the in Vivo Behavior of Coated Quantum Dots
TL;DR: The coating of commercial ITK705-amino QDs with methoxy-terminated poly(ethylene glycol) (PEG) of different chain lengths with significant impact on their in vivo fate after tail i.v. injection was studied by fluorescence imaging.
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Spin Canting of Maghemite Studied by NMR and In-Field Mössbauer Spectrometry
T. Jean Daou,Jean-Marc Greneche,Seong-Joo Lee,Soonchil Lee,Christophe Lefevre,Sylvie Begin-Colin,Geneviève Pourroy +6 more
TL;DR: In this article, local probe techniques, 57Fe in-field Mossbauer, and 57Fe NMR spectrometries have been combined to describe the magnetic structure of Maghemite nanoparticles.
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Performance of surfactant-modified *BEA-type zeolite nanosponges for the removal of nitrate in contaminated water: Effect of the external surface.
Layla El Hanache,Bénédicte Lebeau,Habiba Nouali,Joumana Toufaily,Tayssir Hamieh,T. Jean Daou,T. Jean Daou +6 more
TL;DR: The maximum nitrate removal capacity (1338 mmol.Kg-1/83 mg) was obtained for SMZNS material, which is the highest ever observed for nitrates removal using surfactant-modified zeolite, and the nitrate Removal kinetics were fitted with the pseudo second-order model for both materials.