916 research outputs found
Submicrometric Films of Surface-Attached Polymer Network with Temperature-Responsive Properties
Temperature-responsive properties of surface-attached
poly(N-isopropylacrylamide) (PNIPAM) network films with well-controlled
chemistry are investigated. The synthesis consists of cross-linking and
grafting preformed ene-reactive polymer chains through thiol--ene click
chemistry. The formation of surface-attached and cross-linked polymer films has
the advantage of being wellcontrolled without any caution of no-oxygen
atmosphere or addition of initiators. PNIPAM hydrogel films with same
cross-link density are synthesized on a wide range of thickness, from
nanometers to micrometers. The swelling-collapse transition with temperature is
studied by using ellipsometry, neutron reflectivity, and atomic force
microscopy as complementary surface-probing techniques. Sharp and high
amplitude temperature-induced phase transition is observed for all
submicrometric PNIPAM hydrogel films. For temperature above LCST,
surface-attached PNIPAM hydrogels collapse similarly but without complete
expulsion of water. For temperature below LCST, the swelling of PNIPAM
hydrogels depends on the film thickness. It is shown that the swelling is
strongly affected by the surface attachment for ultrathin films below 150
nm. For thicker films above 150 nm (to micrometers), surface-attached polymer
networks with the same cross-link density swell equally. The density profile of
the hydrogel films in the direction normal to the substrate is confronted with
in-plane topography of the free surface. It results that the free interface
width is much larger than the roughness of the hydrogel film, suggesting
pendant chains at the free surface.Comment: in Langmuir, American Chemical Society, 2015, LANGMUIR, 31 (42),
pp.11516-1152
Leaf segmentation and tracking using probabilistic parametric active contours
Active contours or snakes are widely used for segmentation and tracking. These techniques require the minimization of an energy function, which is generally a linear combination of a data fit term and a regularization term. This energy function can be adjusted to exploit the intrinsic object and image features. This can be done by changing the weighting parameters of the data fit and regularization term. There is, however, no rule to set these parameters optimally for a given application. This results in trial and error parameter estimation. In this paper, we propose a new active contour framework defined using probability theory. With this new technique there is no need for ad hoc parameter setting, since it uses probability distributions, which can be learned from a given training dataset
Flavonoids accumulate in cell walls, middle lamellae and callose-rich papillae during an incompatible interaction between Xanthomonas campestris pv. malvacearum and cotton
Interactions between cotton cotyledons and #Xanthomonas campestris pv. #malvacearum were examined. During an incompatible interaction, fluorescence microscopy revealed that flavonoid compounds accumulated within 10 h after inoculation. Electron micrographs showed ultrastructural modifications of cells that exhibited an intense fluorescence suggesting the presence of flavonoids. Phenol-like molecules were produced by cells of infection sites and were found in paramural areas within papillae enriched with callose and in host cell walls and middle lamellae. Histochemistry showed that peroxidase activity and terpenoids were detected in the infected resistant plants, 4 and 48 h after inoculation, respectively. In contrast, no changes in the deposits of lignin, suberin, and catechin were seen in either the infected susceptible or resistant lines. We suggest that early flavonoid accumulation is associated with the hypersensitive reaction of cotton cotyledons to #X. campestris pv. #malvacearum. The activity of wall-bound peroxidases may play a role in the incorporation of flavonoids in cell walls and paramural papillae. (Résumé d'auteur
Large and non-linear permeability amplification with polymeric additives in hydrogel membranes
Hydrogels which are hydrophilic and porous materials have recently emerged as
promising systems for filtration applications. In our study, we prepare
hydrogel membranes by the photopolymerization of a mixture of poly (ethylene
glycol) diacrylate (PEGDA) and large poly(ethylene glycol) (PEG) chains of 300
000 g.mol-1 in the presence of a photoinitiator. We find that this addition of
free PEG chains induces a large and non-linear increase of the water
permeability. Indeed, by changing the content of PEG chains added, we obtain
variations of the hydrogel water permeability over two orders of magnitude. The
highest water permeability values are obtained for the membranes when the PEG
concentration is equal to its critical overlap concentration C*. Moreover, we
find that the flow rate of water through the membranes varies non-linearly with
the pressure. We relate this result to the deformability of the membranes as
the applied pressure leads to a compression of the pores. This study provides
new perspectives for the design of flexible hydrogel membranes with controlled
permeability and their application in water treatment and bioseparation
The Total Filmmaker: thinking of screenwriting, directing and editing as one role
As screenwriting continues to establish itself as a discrete discipline in academia, either in alignment with creative writing departments or film and media practice departments, there is a danger that such developments may entrench a distancing of the craft from the cinematic form itself and that such a distancing may ultimately reinforce the screenplay's propensity for dramaturgy and the dramatic, rather than the sensory and experiential of the cinematic. Closely related creative stages in telling cinematic stories include directing and editing and this article seeks to argue, with reference to personal screen practice, that screenwriting, directing and editing are, in fact, three variations of the same thing. The article proposes the notion of the Total Filmmaker who embraces all three aspects of the cinematic storyteller. If the ultimate aim is to create a narrative that fully utilises the unique properties of the cinematic form in telling a story, rather than being dominated by the theatricality of dramatically driven classical narratives. How might one explore the relationship between screenwriting, directing and editing? Can an integrated approach to creating the cinematic blueprint change the way we think of pedagogy and screenwriting
Phase shift in an atom interferometer induced by the additional laser lines of a Raman laser generated by modulation
The use of Raman laser generated by modulation for light-pulse atom
interferometer allows to have a laser system more compact and robust. However,
the additional laser frequencies generated can perturb the atom interferometer.
In this article, we present a precise calculation of the phase shift induced by
the additional laser frequencies. The model is validated by comparison with
experimental measurements on an atom gravimeter. The uncertainty of the phase
shift determination limits the accuracy of our compact gravimeter at 8.10^-8
m/s^2. We show that it is possible to reduce considerably this inaccuracy with
a better control of experimental parameters or with particular interferometer
configurations
Sieving and clogging in PEG-PEGDA hydrogel membranes
Hydrogels are promising systems for separation applications due to their
structural characteristics (i.e. hydrophilicity and porosity). In our study, we
investigate the permeation of suspensions of rigid latex particles of different
sizes through free-standing hydrogel membranes prepared by photopolymerization
of a mixture of poly (ethylene glycol) diacrylate (PEGDA) and large poly
(ethylene glycol) (PEG) chains of 300 000 g.mol-1 in the presence of a
photoinitiator. Atomic force microscopy (AFM) and cryoscanning electron
microscopy (cryoSEM) were employed to characterize the structure of the
hydrogel membranes. We find that the 20 nm particle permeation depends on both
the PEGDA/PEG composition and the pressure applied during filtration. In
contrast, we do not measure a significant permeation of the 100 nm and 1 m
particles, despite the presence of large cavities of 1 m evidenced by
cryoSEM images. We suggest that the PEG chains induce local nanoscale defects
in the cross-linking of PEGDA-rich walls separating the micron size cavities,
that control the permeation of particles and water. Moreover, we discuss the
decline of the permeation flux observed in the presence of latex particles,
compared to that of pure water. We suggest that a thin layer of particles forms
on the surface of the hydrogels
Groupwise Multimodal Image Registration using Joint Total Variation
In medical imaging it is common practice to acquire a wide range of
modalities (MRI, CT, PET, etc.), to highlight different structures or
pathologies. As patient movement between scans or scanning session is
unavoidable, registration is often an essential step before any subsequent
image analysis. In this paper, we introduce a cost function based on joint
total variation for such multimodal image registration. This cost function has
the advantage of enabling principled, groupwise alignment of multiple images,
whilst being insensitive to strong intensity non-uniformities. We evaluate our
algorithm on rigidly aligning both simulated and real 3D brain scans. This
validation shows robustness to strong intensity non-uniformities and low
registration errors for CT/PET to MRI alignment. Our implementation is publicly
available at https://github.com/brudfors/coregistration-njtv
- …