Silvana Trigari

Synthesis and modelling of gold nanostars with tunable morphology and extinction spectrum

We present a simple seed-less synthesis procedure to fabricate stable gold nanostars (AuNSs) with tunable extinction properties from the visible up to 1800 nm, depending on the average values of core size and branch length. The experimental results are compared with data from Finite Elements Method computations by using an approximated model of the fabricated branched systems. The theoretical computations highlight the existence of hot spots located on the tips of the nanostars even up to 1800 nm wavelength, which opens the way to the improvement of IR diagnostics or chemical sensing.

Lens-ended fibers for medical applications: a new fabrication technique.

Microlens-ended fibers may be of great usefulness in medical applications, in particular in endoscopic laser treatment and surgery. Previous fabrication techniques of integral microlenses have mainly faced the problems related to optical communications, where damage due to high-power lasers does not occur. We describe a novel method, the laser-microfurnace technique, which uses the laser energy delivered by the fiber itself to create a microfurnace in a suitable material that reirradiates energy in a different wavelength band and causes the fiber tip to melt. This easy and reliable method is applicable to all types of fiber, even those with pure-silica core and large core diameter. No special equipment or training of the operator is required, so fabrication of microlenses may be carried out even in the surgery room. Experimental process parameters are reported.

All optical switches based on the coupling of surface plasmon polaritons

We studied the potentials of All Optical Switches (AOS) based on the intensity-dependent coupling and decoupling of light into the SPP modes (Surface Plasmon Polaritons) of a sinusoidally corrugated thin metal film (TMF), due to Kerr induced refractive index changes of the surrounding dielectrics. The ideal device has two spatially separated outputs, collecting the reflected and transmitted light and the active volume can be as small as 10(-2) mm(3). Gold and PTS (poly-(2,4-hexadiyne-1,6-diol bis(p-toluene sulfonate) are the materials considered. Losses are limited to 1.5 dB,while a 20 dB extinction ratio per gate has been theoretically demonstrated with signal pulsewidths of 5-10 ps , using a maximum optical switching peak power of 11 kW.

Functionalized Au/Ag nanocages as a novel fluorescence and SERS dual probe for sensing.

We obtained chitosan-protected Au/Ag nanocages (NCs), i.e., hollow and porous metallic nanoparticles, by galvanic replacement reaction. Subsequently, we functionalized the NCs with a fluorescent derivative of 4-methoxy-1,8-naphtalimide (NAFTA6). The plasmonic properties of these structures, which exhibit an extinction maximum in the 700-800 nm range, allowed their use as SERS active substrates for excitation at 785 nm and an efficient identification of the vibrational bands of NAFTA6, in spite of the low ligand concentration (<10(-5) M). Furthermore, NAFTA6 could also be identified from its fluorescence emission. The proposed functionalization with fluorescent compounds opens the way to the application of metal NCs using double-wavelength detection. Namely, Raman spectroscopy in the near infrared and fluorescence emission in the visible region, with considerable potential especially for in vivo medical applications, as the plasmonic band is centered in the visible light region where biological fluids and tissues are transparent.

The β-Subunit of Cholera Toxin has a High Affinity for Ganglioside GM1 Embedded into Solid Supported Lipid Membranes with a Lipid Raft-Like Composition

In this communication, we report on the fabrication of GM1-rich solid-supported bilayer lipid membranes (ssBLM) made of sphingomyelin and cholesterol, the main components of lipid rafts, which are the physiological hosting microenvironment of GM1 on the cell membrane. The functionality of the ganglioside has been checked by measuring the apparent dissociation constant KD of the complex formed by the β-subunit of the cholera toxin and GM1. The value found deviates less than one order of magnitude from that measured for in vivo cells, indicating the potential of these ssBLM as optimized in vitro biomimetic platforms.

Optical Fibres For Medical Applications : Output Beam Shaping

In medical applications of the laser, particular radiation patterns of light on the tissue to be treated are often required. This need can be satisfied by unconventionally shaped fibre tips. The most promising examples of such tips are briefly reviewed. The most important fa-brication methods are also considered as well as the medical or surgical applications which are under investigation.

Gold nanostars as SERS-active substrates for FT-Raman spectroscopy

Gold nanostars having extinction maxima in the near infrared spectral region were synthesized according to surfactant-free or CTAB-based procedures. The SERS activity of these colloidal suspensions by 1064 nm excitation was tested with a thiolic derivative of naphtalimide as a ligand molecule. The shielding effect of the colloid on the observed Raman response was taken into account as well as the influence of nanoparticle concentration and the addition of chitosan, as stabilizer. A nanomolar limit of detection and a Raman enhancement factor of more than 105 were found. In particular, an important finding is that CTAB-free nanostars, even in the more biocompatible chitosan-stabilized form, still behaved as good SERS substrates in the near infrared where the occurrence of the “optical tissue window” points to their use in biological systems with minimum fluorescence background.

Differential uPAR recruitment in caveolar-lipid rafts by GM1 and GM3 gangliosides regulates endothelial progenitor cells angiogenesis

Gangliosides and the urokinase plasminogen activator receptor (uPAR) tipically partition in specialized membrane microdomains called lipid‐rafts. uPAR becomes functionally important in fostering angiogenesis in endothelial progenitor cells (EPCs) upon recruitment in caveolar‐lipid rafts. Moreover, cell membrane enrichment with exogenous GM1 ganglioside is pro‐angiogenic and opposite to the activity of GM3 ganglioside. On these basis, we first checked the interaction of uPAR with membrane models enriched with GM1 or GM3, relying on the adoption of solid‐supported mobile bilayer lipid membranes with raft‐like composition formed onto solid hydrophilic surfaces, and evaluated by surface plasmon resonance (SPR) the extent of uPAR recruitment. We estimated the apparent dissociation constants of uPAR‐GM1/GM3 complexes. These preliminary observations, indicating that uPAR binds preferentially to GM1‐enriched biomimetic membranes, were validated by identifying a pro‐angiogenic activity of GM1‐enriched EPCs, based on GM1‐dependent uPAR recruitment in caveolar rafts. We have observed that addition of GM1 to EPCs culture medium promotes matrigel invasion and capillary morphogenesis, as opposed to the anti‐angiogenesis activity of GM3. Moreover, GM1 also stimulates MAPKinases signalling pathways, typically associated with an angiogenesis program. Caveolar‐raft isolation and Western blotting of uPAR showed that GM1 promotes caveolar‐raft partitioning of uPAR, as opposed to control and GM3‐challenged EPCs. By confocal microscopy, we have shown that in EPCs uPAR is present on the surface in at least three compartments, respectively, associated to GM1, GM3 and caveolar rafts. Following GM1 exogenous addition, the GM3 compartment is depleted of uPAR which is recruited within caveolar rafts thereby triggering angiogenesis.

Axially - And Side - Radiating Optical Fibres For Medical Applications

Laser surgery and photoradiation therapy are still rapidly developing: they are therefore placing new requirements and conditions on the associated technology. Thus, optical fibers are often requested to have a particular output which matches the needs of the considered applications. Integral fibre tips are a very convenient solution to many optical systems. The fabrication techniques and the experimental characteristics of different kinds of fibre tips are described.

An Optical Thermometer Exploiting Periodically Poled Lithium Niobate for Monitoring the Pantographs of High-Speed Trains

Optical thermometers have been widely investigated. Here, the temperature behavior of second harmonic generation (SHG) in periodically poled lithium niobate (PPLN) substrates is analyzed; indeed, the QPM tuning in PPLN devices and the obtained SHG efficiency depend on the crystal thermal expansion and dispersion, particularly in the case of guided propagation. Therefore, such devices are suitable to realize optical thermometers for demanding applications. This investigation originated with the request of a thermometer to be installed on the pantographs of high-speed trains. Therefore, it must be sturdy and reliable, but it has even to work in an EMD environment. The temperature behavior of the SHG was theoretically modeled and experimentally validated at 1550 nm, in both bulk propagation and APE channel waveguides. In the first case, by using a 10-mW source, which was obtained from a laser diode and a fiber amplifier, an accuracy of 0.3 degC was found. The pump power was about three orders of magnitude smaller in guided propagation. In view of testing on the trains, our investigation resulted in the design of a device without mechanical contacts with the input and output fibers. Since it works in free propagation, there are no serious alignment and packaging problems. The performances, which are expected to be the same of our tests, widely satisfy all the requirements for working effectively in a strongly hostile and EMD environment and for giving accurate measurements on a wide range of temperatures