Job title:
Plasmonic sensors based on two-dimensional assembly of gold nanoparticles for the detection of pollutants and biomarkers
Company:
Job description
Offer DescriptionContext : New nanostructured or two-dimensional materials, thanks to their specific intrinsic properties, – optical, -magnetic, -electrical, -catalytic, -mechanical, etc. hold great potential for the fabrication of ultrasensitive nanodevices, for screening, early diagnosis of diseases or detection of pollutants. Among them, compact 2D-assembly of gold nanoparticles, bare or functionalized, are promising systems for SERS (Surface-Enhanced Raman Scattering) sensors ref-1 , chemiresistive gas sensors for the detection of volatile organic compounds, particularly those present in breath and associated with pathologies ref-2 or also for deformation sensors ref-3. To improve the reproducibility, response times, sensitivity and selectivity of these sensors, we propose to use gold nanoparticles that are monodispersed in shape and size, with sharp edges, to obtain a homogeneous spatial distribution of these nanoparticles on various substrates. When the inter-particle distances are very small, the electromagnetic hot spots located in the nanogaps enable enhancement of light-matter interaction, in an extremely localized way, and in particular heat and charge transfers from the gold surface to the adsorbed molecules, for sensor applications, photochemistry and photocatalysis.Research program : For several years now, our research has been focusing on the synthesis of high-quality gold nanoparticles, optimized in size and shape to generate light, heat or charge carriers, and presenting sharp tips and edges. (Websites : ; ). The control of the interface between the gold nanoparticle and its environment (chemical coatings) is the second key point in which we are specialized. The applications targeted so far, concern plasmonics and health ref-4. An 18-month postdoctoral fellowship is available in our group, for a motivated young researcher interested in applying his knowledge to the preparation of plasmonic thin films for the fabrication of sensors. The research consists in developing a 2D-self-assembly know-how of these gold nanoparticles, at the liquid-liquid interface (water/oil) and at the water/air interface (Langmuir-Blodgett) following protocols from the literature. These gold nanoparticles can be coated with an insulating organic monolayer or a silica layer whose thickness and porosity can be modulated at will (sol-gel chemistry). These nanometric films will be transferred to various substrates (transparent, conductive, flexible, stretchable, etc.) for sensor applications. This work, funded by the ANR (Agence National de Recherche, and projects), will take place in the (DRF-IRAMIS-NIMBE-LEDNA) located in the Paris region at CEA-Saclay. The properties of these nanostructures will be studied in collaboration with experts.RequirementsSpecific RequirementsApplication: We are looking for candidates with a PhD and ideally a previous experience in 2D-assembly of nanoparticles. This 12-month postdoctoral fellowship extendable for a further year (2 renewals of 6 months each), at the Institute NIMBE of CEA Saclay (CNRS UMR3685) can begin starting from May 1,2024.Additional InformationWork Location(s)Number of offers available 1 Company/Institute CEA Country France City saclay GeofieldWhere to apply WebsiteContact WebsiteSTATUS: EXPIRED
Expected salary
Location
Saclay, Essonne
Job date
Fri, 16 Feb 2024 03:33:55 GMT
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