CNRS postdoc position on developing advanced nanoplasmonic biosensors (M/F)
Offer DescriptionThis 2-year post-doctoral project (starting from November 2024) aims to develop new optical detection chips based on plasmonic metasurfaces. Specifically, an original approach to achieve SPR detection will be developed by designing new nanomaterials with higher absorption efficiency. SPR detection substrates will be developed using nanofabrication techniques such as electron beam lithography. Ultimately, the goal of this project is to facilitate certain clinical applications, such as early disease prevention, using diagnostic tools based on the developed approach.Nanophotonic devices are widely used to study fundamental biological processes at the molecular level, all the way to quantum information processing. Among all approaches, surface plasmon resonance (SPR) sensors are of great interest due to their ability to detect biomolecules in real-time. In particular, SPR detection substrates based on plasmonic metasurface structures can surpass the detection limits of current metallic substrates [1-2]. The sub-nanometer tunability of plasmonic nanostructures allows for precise control of the resonance at the detection interface. Optimizing the coupling with the nanostructures leads to the exceptional property of generating a near-extinction of the reflected SPR signal, and this increased substrate absorption should provide an effective means of detecting small biomolecules in just 20 minutes with high signal-to-noise ratio.References:
1. Cherqui, C.; Bourgeois, M. R.; Wang, D.; Schatz, G. C., Plasmonic Surface Lattice Resonances: Theory and Computation. Accounts of Chemical Research 2019, 52 (9), 2548-2558
2. Kabashin, A. V.; Kravets, V. G.; Grigorenko, A. N., Label-free optical biosensing: going beyond the limits. Chemical Society Reviews 2023, 52 (18), 6554-6585The laboratory Light, nanomaterials and nanotechnologies (L2n) aims at the development of nanooptics, which addresses a number of technological, scientific and socio-economic challenges. The L2n is a joint UTT/CNRS laboratory of more than 100 people comprising faculty membres, CNRS researchers, research and project engineers, technicians, post-doctorate fellows, PhD students, graduate students and visitors. Researchers at the L2n work on new concepts and approaches, developing both innovative instrumentation and nanocharacterisation and nanofabrication methods. Covering such fields as energy (lighting, photovoltaics, etc.), telecommunications, data storage, health and security, key socio-economic challenges are addressed through multidisciplinary research focus areas: plasmonics, integrated optics, optoelectronics, new spectroscopy and microscopy techniques, multiphysics modeling, multi-functional nanosensors, nanobiophotonics and nanomaterials for photonics, quantum nanodevices, photochemistry and photophysics.
Troyes, Aube
Sun, 04 Aug 2024 00:50:54 GMT
To help us track our recruitment effort, please indicate in your email/cover letter where (vacanciesineu.com) you saw this job posting.
Location: Arras (62000) - France Salary: Competitive Type: Permanent Main Industry: Search Retail & Wholesale…
Job title: Business Analyst - Leuven Company: G2 Recruitment Job description g2 is a leading…
Location: Dublin 24 (D24WA02) - Ireland Salary: Competitive Type: Permanent Main Industry: Search Information Technology…
Job title: Physics Teacher needed - Outstanding Ofsted School Company: Wayman Education Job description Science…
Job title: Secretaresse Company: Secretary Plus Job description Dit ga je doenAls interim secretaresse via…
Location: Lithuania Salary: Competitive Type: Permanent Main Industry: Search Construction Jobs Other Industries & Skills: Engineering,…