205 research outputs found
Photoinduced Doughnut-Shaped Nanostructures
We show that an incoherent unpolarized single-beam illumination is able to
photoinduce nano-doughnuts on the surface of azopolymer thin films. We
demonstrate that individual doughnut-shaped nano-objects as well as clusters of
several adjacent nano-doughnuts can be formed and tailored with wide range of
typical sizes, thus providing a rich field for applications in nanophotonics
and photochemistry.Comment: 13 pages, 3 figures, first version to chem. phys. lett. 201
Nonlocal communication with photoinduced structures at the surface of a polymer film
Nonlocal communication between two laser light beams is experimented in a
photochromic polymer thin films. Information exchange between the beams is
mediated by the self-induction of a surface relief pattern. The exchanged
information is related to the pitch and orientation of the grating. Both are
determined by the incident beam. The process can be applied to experiment on a
new kind of logic gates.Comment: 7 pages, 4 figures, 2 table
Multistate polarization addressing using one single beam in an azo polymer film
Peculiar light-matter interactions can break the rule that a single beam
polarization can address only two states in an optical memory device.
Multistate storage of a single beam polarization is achieved using self-induced
surface diffraction gratings in a photo-active polymer material. The grating
orientation follows the incident light beam polarization direction. The
permanent self-induced surface relief grating can be readout in real time using
the same laser beam.Comment: 11 pages,3 figure
Light mediated emergence of surface patterns in azopolymers at low temperatures
Polymer thin films doped with azobenzene molecules do have the ability to
organize themselves in spontaneous surface relief gratings (SRG) under
irradiation with a single polarized beam. To shed some light in this still
unexplained phenomenon, we use a new method that permits us to access
experimentally the very first steps of the pattern formation process.
Decreasing the temperature, we slow down the formation and organization of
patterns, due to the large increase of the viscosity and relaxation time of the
azopolymer. As a result decreasing the temperature allows us to access and
study much shorter time scales,in the physical mechanisms underlying the
pattern formation, than previously reported. We find that the patterns organize
themselves in sub-structures which size increase with the temperature,
following the diffusion coefficient evolution of the material. That result
suggests that the pattern formation and organization is mainly governed by
diffusive processes, in agreement with some theories of the SRG formation.
Decreasing further the temperature we observe the emergence of small voids
located at the junction of the sub-structures.Comment: 6 figures, 13 pages
Cognitive ability experiment with photosensitive organic molecular thin films
We present an optical experiment which permits to evaluate the information
exchange necessary to self-induce cooperatively a well-organized pattern in a
randomly activated molecular assembly. A low-power coherent beam carrying
polarization and wavelength information is used to organize a surface relief
grating on a photochromic polymer thin film which is photo-activated by a
powerful incoherent beam. We demonstrate experimentally that less than 1% of
the molecules possessing information cooperatively transmit it to the entire
photo-activated polymer film.Comment: 16 pages, 4 figure
Cognitive ability process at the molecular level
In the standard SRG formation in azo-dye containing photoactive polymers, the photoactive molecules are excited by a coherent illumination pattern. The highly reactive molecules move in a non-uniform way, inducing a mass transport from the bright regions to the neighbouring dark regions. The maximum heights of the light induced SRG correspond to light intensity minima. We show that a well-defined surface relief grating is induced in an azo-polymer film by the combination of one low power coherent laser beam with another high power incoherent and unpolarised beam. The information brought by the coherent signal beam has been transmitted to peripheral incoherent regions by the molecular self-assembling process: i.e., the organised molecules communicate non-local information about photo-induced structural organisation to the non organised neighbouring ones. They communicate by exchanging light through surface relief variations. In this way, we see that a totally incoherent beam can provide the movement which is necessary to induce a well-defined SRG. We find in this way one of the simplest systems allowing to figure out the minimal requirements to organise disordered materials into well organised structures. We verify experimentally that random motion plus information exchange lead to self-organisation. Our experiment shows that complex behaviour can be experimented using simple systems: weak coherent light can serve as a seed to create information into a polymer film in such a way that molecules powered by incoherent light will build and transmit well defined complex structures
Spontaneous formation of optically induced surface relief gratings
A model based on Fick's law of diffusion as a phenomenological description of
the molecular motion, and on the coupled mode theory, is developped to describe
single-beam surface relief grating formation in azopolymers thin films. It
allows to explain the mechanism of spontaneous patterning, and
self-organization. It allows also to compute the surface relief profile and its
evolution in time with good agreement with experiments
Photo-responsive polymer with erasable and reconfigurable micro- and nano-patterns: An in vitro study for neuron guidance
The interaction of cells with nanoscale topography has proven to be an important modality in controlling cell responses. Topographic parameters on material surfaces play a role in cell growth. We have synthesized a new bio compatible polymer containing photoswitching molecules. Stripepatterned (groove/ridge pattern) were patterned and erased with ease on this bio azopolymer with two different set-ups: one with the projection of an optical interference pattern and the other one by molecular self-organization with one single laser beam. These two set-ups allow the re-writing of pattern after erasing and its inscription in vitro. PC12 cells were cultured on the bio-photoswitching patterned polymer and compared with PC12 cells growing on a well know substrate: poly-L-lysine. This result is of interest for facilitating contact guidance and designing reconfigurable scaffold for neural network formation in vitro. (C) 2011 Elsevier B.V. All rights reserve
- …