To strengthen our multidisciplinary team, we are seeking a biochemist with expertise in functionalization of metal nanoparticles, DNA-templated self-assembly and biosensing.
The successful candidate will be part of an emerging project carried out at the Institut Fresnel with the funding of an ERC Proof of Concept Grant. The project aims at exploiting novel detection schemes to develop a breakthrough platform for ultra-sensitive detection of DNA sequences.
See full details in the pdf document below.
We are glad to report that our proposal PHOCCS has been accepted for funding by ERC Proof of Concept scheme. The project officially starts on May 1st 2015 for 18 months.
Abstract: Across Europe, nearly 250,000 people die every year of sepsis, a severe bloodstream infection. Detecting molecular biomarkers indicative of bacterial infection within a limited time is vital to enable targeted antibiotics therapy, limit the risk of antimicrobial resistance and reduce hospitalization costs. The key to success to fight sepsis is a fast detection technology that avoids the need for nucleic acid amplification processes and circumvents the limitations of fluorescence labelling.
The PHOCCS project aims at exploiting novel concepts based on PHOton Cross Correlation Spectroscopy to develop a breakthrough platform for ultra-sensitive detection of DNA biomolecules and assess its transferability into the large molecular diagnostics market. With its unique technology based on dynamic light scattering of noble metal nanoparticles, PHOCCS has several key advantages to enable commercial success: it is fast, quantitative, sensitive, specific and simple to operate.
Based upon original and patented intellectual property, PHOCCS is fully targeted to the development of a disruptive technology fundamental in strategic applications of molecular diagnostics to fulfil the industrial market needs. The PHOCCS project will bring the technology to a pre-demonstration stage for DNA sensing to strengthen the commercialization and licensing opportunities.
Metal nanoapertures known as zero-mode waveguides (ZMWs) are receiving a large interest as they concentrate light into nanoscale volumes and enable single molecule fluorescence experiments at micromolar concentrations. Within the large single molecule fluorescence toolbox, FRET is certainly one of the most widely used. Therefore it is tempting to associate ZMWs with FRET. However, such experiments are challenged by the complex influence the metal may have on the FRET process.
In a recent Chem Phys Chem article, we quantify the FRET rates and efficiencies between individual donor-acceptor pairs in aluminum zero-mode waveguides. We also compare the FRET results between ZMWs milled in gold and aluminum, and discuss the influence of plasmon resonance effects.
Given the large interest raised by aluminum ZMWs and FRET separately, we believe that our detailed report will help to expand the application of ZMWs as new devices for enhanced single molecule FRET at physiological concentrations.
The technical program meeting for the CLEO Europe EQEC conference has just been held. For the EH Plasmonics and Metamaterials topic, we will have a total of seven sessions:
- Dielectric and hyperbolic metamaterials
- Chirality in plasmonics and metamaterials
- Plasmons in Low dimensionan materials
- Emission control with nanoantennas
- Nanoantennas: from sensing to thermoplasmonics
- Active plasmonics and metamaterials
- Coherent effects in nanophotonics
These sessions will provide an outstanding overview of current topics and future trends in metal nanophotonics from fundamentals towards applications and including all spectral regimes: plasmonic nanostructures, antennas, cavities and waveguides; metamaterials; hybrid materials; nonlinear structures and effects; active systems, systems with gain.
As we had a large number of submitted abstracts but a limited number of slots at the conference, the selection process was very fierce. About 50% of abstracts could be selected for talks, 25% for poster and unfortunately we had to reject about 25% of abstracts. This (relatively high) rejection rate is imposed by the CLEO/EQEC organization and does not necessarily reflect the will of the topical sub-committee (I would have liked to have more posters and less rejected papers). As the selection process is quite fierce, the abstract quality is a key factor. Here are a few hints to write better abstracts:
* state clearly your subject and the results you obtained
* explain how your work improves on the current knowledge or state-of-the-art
* if your abstract relates to a published article in a peer-reviewed journal, make it apparent.
* avoid parallel submission: do not multiply the abtracts on similar work