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981.
Truckenmüller R Giselbrecht S Rivron N Gottwald E Saile V van den Berg A Wessling M van Blitterswijk C 《Advanced materials (Deerfield Beach, Fla.)》2011,23(11):1311-1329
For roughly ten years now, a new class of polymer micromoulding processes comes more and more into the focus both of the microtechnology and the biomedical engineering community. These processes can be subsumed under the term "microthermoforming". In microthermoforming, thin polymer films are heated to a softened, but still solid state and formed to thin-walled microdevices by three-dimensional stretching. The high material coherence during forming is in contrast to common polymer microreplication processes where the material is processed in a liquid or flowing state. It enables the preservation of premodifications of the film material. In this progress report, we review the still young state of the art of microthermoforming technology as well as its first applications. So far, the applications are mainly in the biomedical field. They benefit from the fact that thermoformed microdevices have unique properties resulting from their special, unusual morphology. The focus of this paper is on the impact of the new class of micromoulding processes and the processed film materials on the characteristics of the moulded microdevices and on their applications. 相似文献
982.
Surface properties and cell adhesion onto allylamine-plasma and amine-plasma coated glass coverslips
Crespin M Moreau N Masereel B Feron O Gallez B Vander Borght T Michiels C Lucas S 《Journal of materials science. Materials in medicine》2011,22(3):671-682
Surface properties of nanoparticles to be used for radioimmunotherapy need to be optimized to allow antibody conjugation while
ensuring biocompatibility. We aimed to investigate cell adhesion and proliferation onto different coatings to be used for
nanoparticles. C, CH
x
or SiO
x
coatings deposited onto glass coverslips by magnetron deposition as well as nitrogen functionalized materials synthetized
using different reactive sputtering conditions and PPAA (plasma polymerized allylamine) coating, were compared. Amine functionalization
did increase hydrophilicity in all the materials tested. Biocompatibility was assessed by measuring cell viability, morphology,
attachment, spreading, and pro-inflammatory cytokine secretion. The results show that C and CN
x
were the most biocompatible substrates while SiO
x
and SiO
x
N
y
were the most toxic materials. PPAA coatings displayed unexpectedly an intermediate biocompatibility. A correlation could
be observed between wettability and cell proliferation except for C coated surface, indicating that more complex processes
than hydrophilicity alone are taking place that affect cell functions. 相似文献
983.
Gilles Wallez Nicolas Clavier Nicolas Dacheux Damien Bregiroux 《Materials Research Bulletin》2011,46(11):1777-1780
High temperature X ray diffraction performed on recently discovered orthorhombic Th2O(PO4)2 shows a continuous linear thermal contraction (−1.6 × 10−6 °C−1) in 20–600 °C range and a near-zero expansion at higher temperatures resulting from a dual structural deformation involving oxygen oscillations and inter-cations repulsions. Although similar mechanisms were observed in isotypic Zr2O(PO4)2 (+1.5 × 10−6 °C−1) and U2O(PO4)2 (−1.4 × 10−6 °C−1), those observed in Th2O(PO4)2 are particularly intense because of the high ionic radius of tetravalent thorium. 相似文献
984.
Hakim Marko Ludovic ArzelArouna Darga Nicolas BarreauSébastien Noël Denis MencaragliaJohn Kessler 《Thin solid films》2011,519(21):7228-7231
The electric properties of solar cells based on co-evaporated Cu(In,Ga)Se2 (CIGSe) thin film show a good tolerance regarding the absorber Cu content (y = [Cu]/([In] + [Ga])) for standard Ga concentration, i.e. x = [Ga] / ([In] + [Ga]) ~ 0.3. In the present contribution, we show that this tolerance is lost when the gallium content is increased. Wide bandgap CIGSe samples (x ~ 0.55) with a variation in y from 0.97 to 0.84 have been grown. The efficiency of the cells decreases from 12.6% to 6.5% for y = 0.97 and 0.84 respectively. For the lowest y, the efficiency is harmed because of a low short-circuit current density (Jsc), an increased voltage dependency in the current collection, which affects the fill factor (FF), and a decrease of the open-circuit voltage (Voc). For y = 0.97 and 0.84 respectively, the decrease of the activation energy (Ea) from 1.36 to 1.24 eV indicates a shift of the area of the dominant recombination from the space charge region towards the interface. There seems to be evidence that reducing the Cu-content in the CIGSe thin film will cause a decrease in the width of the space charge region. Solar cells based on Cu-rich CIGSe (1.03 < y < 1.09) have also been fabricated and characterized. A strong deterioration of their electrical properties is observed despite the KCN etch of the segregated Cu2 − xSe binary phases at the surface, suggesting the presence of residual Cu2 − xSe precipitates within the layer. 相似文献
985.
Nicolas Serré 《Cold Regions Science and Technology》2011,67(3):89-106
Rubble ice presents pressure dependent yield strength and its behaviour can be described by mathematical models based on several mechanical parameters. They are investigated for HSVA model rubble ice through the analysis of three different tests: the oedometer test, the pile test and the punch test. This last test is analysed with the non-linear Eulerian finite element method. The tests were performed on 4 ice ridges with two different submersion times. A 0.5 to 1.2 kPa model scale Mohr-Coulomb cohesion (0.6 to 1.5 kPa Drucker-Prager cohesion), depending on the ridge history, was used in the simulations of the model scale punch tests. The friction angle is estimated between 30 and 45° (40 and 50° Drucker-Prager friction angle). The upper value was used in the punch test simulations. A 0.9 MPa Young modulus was derived and the hydrostatic compressive yield curve was determined. The numerical model is able to estimate the rubble action during the entire penetration of the punch test in the keel and it is shown that a cohesive softening occurs in the rubble. In order to reproduce the experimental load time series for the short submersion time ridges it was necessary to use a vertical distribution of the cohesion representing the vertical distribution of the freeze-bond strength. A sensitivity analysis of the punch test shows that the keel depth and the ice density are the main parameters governing the keel frictional resistance. A precise determination of these parameters is therefore crucial for a correct determination of the rubble mechanical properties from the numerical simulation of experimental punch tests. The punch test is not appropriate for the determination of the friction angle due to the low confinement pressure at the failure plane. The numerical analysis of the punch test allows the estimation of different assumptions used in analytical models for the rubble failure: the cohesion averaging is an under-conservative approximation, and the non-simultaneity of the cohesive and shear resistance maximum values can be considered in the peak load estimation by the computation of their quadratic mean. The comparison with full scale values shows a reasonably good scaling of the cohesion for the model ice ridges with a long submersion time. 相似文献
986.
987.
Gruber N 《Philosophical transactions. Series A, Mathematical, physical, and engineering sciences》2011,369(1943):1980-1996
In the coming decades and centuries, the ocean's biogeochemical cycles and ecosystems will become increasingly stressed by at least three independent factors. Rising temperatures, ocean acidification and ocean deoxygenation will cause substantial changes in the physical, chemical and biological environment, which will then affect the ocean's biogeochemical cycles and ecosystems in ways that we are only beginning to fathom. Ocean warming will not only affect organisms and biogeochemical cycles directly, but will also increase upper ocean stratification. The changes in the ocean's carbonate chemistry induced by the uptake of anthropogenic carbon dioxide (CO(2)) (i.e. ocean acidification) will probably affect many organisms and processes, although in ways that are currently not well understood. Ocean deoxygenation, i.e. the loss of dissolved oxygen (O(2)) from the ocean, is bound to occur in a warming and more stratified ocean, causing stress to macro-organisms that critically depend on sufficient levels of oxygen. These three stressors-warming, acidification and deoxygenation-will tend to operate globally, although with distinct regional differences. The impacts of ocean acidification tend to be strongest in the high latitudes, whereas the low-oxygen regions of the low latitudes are most vulnerable to ocean deoxygenation. Specific regions, such as the eastern boundary upwelling systems, will be strongly affected by all three stressors, making them potential hotspots for change. Of additional concern are synergistic effects, such as ocean acidification-induced changes in the type and magnitude of the organic matter exported to the ocean's interior, which then might cause substantial changes in the oxygen concentration there. Ocean warming, acidification and deoxygenation are essentially irreversible on centennial time scales, i.e. once these changes have occurred, it will take centuries for the ocean to recover. With the emission of CO(2) being the primary driver behind all three stressors, the primary mitigation strategy is to reduce these emissions. 相似文献
988.
Watson AJ Metzl N Schuster U 《Philosophical transactions. Series A, Mathematical, physical, and engineering sciences》2011,369(1943):1997-2008
The oceans are an important sink for anthropogenically produced CO(2), and on time scales longer than a century they will be the main repository for the CO(2) that humans are emitting. Our knowledge of how ocean uptake varies (regionally and temporally) and the processes that control it is currently observation-limited. Traditionally, and based on sparse observations and models at coarse resolution, ocean uptake has been thought to be relatively invariant. However, in the few places where we have enough observations to define the uptake over periods of many years or decades, it has been found to change substantially at basin scales, responding to indices of climate variability. We illustrate this for three well-studied regions: the equatorial Pacific, the Indian Ocean sector of the Southern Ocean, and the North Atlantic. A lesson to take from this is that ocean uptake is sensitive to climate (regionally, but presumably also globally). This reinforces the expectation that, as global climate changes in the future owing to human influences, ocean uptake of CO(2) will respond. To evaluate and give early warning of such carbon-climate feedbacks, it is important to track trends in both ocean and land sinks for CO(2). Recent coordinated observational programmes have shown that, by organization of an observing network, the atmosphere-ocean flux of CO(2) can, in principle, be accurately tracked at seasonal or better resolution, over at least the Northern Hemisphere oceans. This would provide a valuable constraint on both the ocean and (by difference) land vegetation sinks for atmospheric CO(2). 相似文献
989.
Tang X Krzeminski C Lecavelier des Etangs-Levallois A Chen Z Dubois E Kasper E Karmous A Reckinger N Flandre D Francis LA Colinge JP Raskin JP 《Nano letters》2011,11(11):4520-4526
We present a new fully self-aligned single-electron memory with a single pair of nano floating gates, made of different materials (Si and Ge). The energy barrier that prevents stored charge leakage is induced not only by quantum effects but also by the conduction-band offset that arises between Ge and Si. The dimensions and position of each floating gate are well-defined and controlled. The devices exhibit a long retention time and single-electron injection at room temperature. 相似文献
990.
Aouani H Mahboub O Bonod N Devaux E Popov E Rigneault H Ebbesen TW Wenger J 《Nano letters》2011,11(2):637-644
Controlling the fluorescence emission from nanoscale quantum emitters is a key element for a wide range of applications, from efficient analytical sensing to quantum information processing. Enhancing the fluorescence intensity and narrowing the emission directivity are both essential features to achieve a full control of fluorescence, yet this is rarely obtained simultaneously with optical nanoantennas. Here we report that gold nanoapertures surrounded by periodic corrugations transform standard fluorescent molecules into bright unidirectional sources. We obtain enhancement factors of the fluorescence count rate per molecule up to 120 fold simultaneously with a directional emission of the fluorescence into a narrow angular cone in the direction normal to the sample plane. The bright emission and narrow directionality enable the detection of single molecules with a low numerical aperture objective, and improve the effectiveness of fluorescence-based applications. We thoroughly quantify the increased light-matter coupling as well as the radiation pattern intensity. These results are highly relevant for the development of single molecule sensing, single-photon sources, and light emitting devices. 相似文献