Development of Laser-generated Surface Acoustic Wave Immuno-sensors

Organisation/Company Université Claude Bernard Lyon1 Research Field Engineering » Mechanical engineering Physics » Acoustics Physics » Optics Researcher Profile First Stage Researcher (R1) Positions PhD Positions Country France Application Deadline 1 Nov 2025 - 12:00 (UTC) Type of Contract Temporary Job Status Full-time Hours Per Week 35 Offer Starting Date 1 Jan 2026 Is the job funded through the EU Research Framework Programme? Horizon Europe – COFUND Is the Job related to staff position within a Research Infrastructure? No

Surface Acoustic Wave (SAW) devices have emerged as promising candidates for the advancement of rapid, low-cost, lab-on-chip point-of-care biosensors. These biosensing devices offer potential for early disease diagnosis and biomarker monitoring due to their sensitivity in detecting small variations in mechanical properties (i.e. changes in mass, density, rigidity, viscosity) resulting from cellular processes such as division, differentiation, communication and death, as well as subcellular events like DNA replication, protein folding, and organelle biogenesis. However, existing SAW biosensors typically rely on bulky piezoelectric substrates with interdigitated electrodes, which often lack biocompatibility and operate at fixed acoustic frequencies, limiting their sensitivity and agility. Additionally, integrating and interfacing such devices with other biomedical and microfluidic systems poses significant challenges due to their unwieldy electronic settings.

To address these limitations, opto-acoustic techniques present an alternative approach. These techniques utilize laser light to generate and probe high frequency ultrasonic waves. In this project, we propose to leverage opto-acoustic schemes to design and develop a laser-based SAW biosensor operating over a wide frequency spectrum, ranging from tens of MHz up to a GHz. We will use laser-induced diffraction gratings to excite and probe these high-frequency SAWs remotely without the need of interdigitated piezoelectric transducers. This biosensor aims to enable fast and efficient detection of cellular and biomolecular processes, including specific antibody-antigen binding events, serving as a proof of concept. Since the sensing mechanism of SAW devices relies primarily on mass-loading to detect binding events, resolution can be limited by the low mass of molecular antibodies. To enhance signal detection and render our sensor more sensitive, we propose to use functionalized biocompatible and biodegradable micro-droplets as signal amplifiers. Droplets functionalized with antibodies will bind specifically the antigen and enhance the mass-loading by several orders of magnitude. The adhesion of the droplet on the antigen-covered surface will additionally allow us to measure the antigen-antibody binding energy. Finally, we will leverage our droplet-assisted sensitive SAW immuno-sensor to detect typical autoantibodies associated with autoimmune disorders, such as those found in rheumatoid arthritis, type I diabetes, and systemic lupus erythematosus.

As part of this, the doctoral candidate will i)design and fabricate an all-optical SAW sensor using numerical tools and microfabrication techniques,ii)characterize the performance and sensitivity of the sensor and identify its optimal parameters and configuration using optoacoustic setups and analytical/numerical analysis, iii) perform the biochemical protocols needed for the functionalization of the sensor surface and signal amplifiers, and iv) measure and analyze the immuno-sensing performance of the biosensor.

E-mail maroun.abi-ghanem@univ-lyon1.fr

Research Field Engineering » Mechanical engineering Education Level Master Degree or equivalent

Research Field Physics » Applied physics Education Level Master Degree or equivalent

Skills/Qualifications

The candidate is expected to have a strong background in acoustics and elastic wave propagation in solids as well as in lasers and the design of optical setups. Knowledge in chemical physics and surface chemistry would be a plus.

Languages ENGLISH Level Excellent

Eligibility criteria

Applicants must not have had their main residence or carried out their main activity (work, studies...) in France for more than 12 months during the 3 years immediately prior to the deadline of the call