Inductively Coupled Plasma Atomic Emission Spectroscopy (ICP-AES) is a powerful and versatile analytical technique specifically designed for multi-element analysis of samples. By utilizing a high-temperature plasma (up to 10,000 K), this method enables the simultaneous detection and quantification of a wide range of elements, from major to trace and ultra-trace levels, with high precision.
- Speed: Simultaneous analysis of multiple elements within minutes.
- Sensitivity: Detection of concentrations ranging from parts per million (ppm) to parts per billion (ppb).
- Versatility: Suitable for a variety of matrices (water, soil, materials, industrial products, etc.).
- Reliability: Reproducible and linear results over a wide range of concentrations.
An indispensable tool for research, ICP-AES is essential for quality control and determining the metallic composition of solutions or biological samples.
A plasma excites atoms, which emit characteristic radiation for each element.
- Electrode stability: Quantification before/after experiments or analysis of electrolytes.
- Metal dosage: In proteins or complexes.
Collaborations : Institut de Biologie Structurale (IBS), Département de Chimie Moléculaire (DCM-Grenoble), Université de Bologne (Italie), le Collège de France, laboratoire BiP (Marseille)…Publications since 2020:
Vitamin C: friend or foe! A synopsis of ascorbic acid's reduction and oxidation of graphene oxide. Omar El-Basha Hassan, Yves Chenavier, Vincent Maurel, Julien Pérard, Adnane Bouzina, Lionel Dubois, Florence Duclairoir*. Materials Advances volume 6 pages 143-147 (2025).
Light-Activated Artificial CO2-Reductase: Structure and Activity. Raphaël J Labidi, Bruno Faivre, Philippe Carpentier, Julien Pérard, Philipp Gotico, Yun Li, Mohamed Atta, Marc Fontecave *. Journal of the American Chemical Society (2024)
Synthetic styrene-based bioinspired model of the [FeFe]-hydrogenase active site for electrocatalytic hydrogen evolution. A Zamader, B Reuillard, J Pérard, L Billon, G Berggren, V Artero *. Sustainable Energy & Fuels 7 (19), 4967-4976. (2023)
Immediate and sustained effects of cobalt and zinc-containing pigments on macrophages. Julie Devcic, Manon Dussol, Véronique Collin-Faure, Julien Pérard, Daphna Fenel, Guy Schoehn, Marie Carrière, Thierry Rabilloud *, Bastien Dalzon *. Frontiers in Immunology 13, 865239 - 7- (2022)
LEAFY protein crystals with a honeycomb structure as platform for selective preparation of outstanding stable bio-hybrid materials. Lucile Chiari, Philippe Carpentier, Sylvie kieffer-jaquinod, Alice Gogny, Julien Pérard, Stéphane Ravanel, David Cobessi, Stephane Menage, Renaud Dumas* and Olivier Hamelin*.Nanoscale, (2021)
Immediate and sustained effects of cobalt-containing pigments on macrophages. Julie Devcic, Bastien Dalzon, Manon Dussol, Véronique Collin-Faure, Julien Pérard, Daphna Fenel, Guy Schoehn, Marie Carrière, Thierry Rabilloud*. Frontiers in Immunology 13, 865239 (2021)
The longer the worse: a combined proteomic and targeted study of the long-term versus short-term effects of silver nanoparticles on macrophages. Bastien Dalzon, Catherine Aude-Garcia, Hélène Diemer, Joanna Bons, Caroline Marie-Desvergne, Julien Pérard, Muriel Dubosson, Véronique Collin-Faure, Christine Carapito, Sarah Cianférani, Marie Carrière, Thierry Rabilloud*. Environmental Science: Nano 7 (7), 2032-2046 (2020)
Sample RequirementsThe concentration of elements in samples must be at least 0.15 µM in 6 mL or 15 µM in 60 µL. Please contact us for more information.
Platform Operation
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Contact
For any inquiries regarding access to the platform and/or implementation of your tests, please write to the address below, specifying your needs:
julien.perard@cea.fr
Scientific Manager: Julien PERARD
Note: Due to site access procedures for users, a two-week notice is required.