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Enhancing Antifungal Efficacy and Stability of Nystatin Liposomes Through Chitosan and Alginate Layer-by-Layer Coating: In vitro Studies Against <i>Candida albicans</i>. [PDF]
Int J NanomedicineSulastri E +6 more
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Layer-by-layer assembly yields thin graphene films with near theoretical conductivity. [PDF]
NPJ 2D Mater ApplCassidy O +7 more
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Layer-by-layer assembled 2D nanocomposites for extreme polarization optics. [PDF]
Natl Sci RevYang J, Cheng Q.
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Advanced Phosphorus-Protein Hybrid Coatings for Fire Safety of Cotton Fabrics, Developed Through the Layer-by-Layer Assembly Technique. [PDF]
Polymers (Basel)Yang X +7 more
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Quantitative layer-by-layer perimetry.
Investigative ophthalmology & visual science, 1978 openaire +1 more source
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Science Signaling, 2002
During development, neurons of the mammalian cerebral cortex are generated at distant sites and must migrate to their final location. The signaling mechanisms that are involved in these migrations are now being elucidated. McEvilly et al. examined the role of two POU-domain transcription factors, Brn-1 and Brn-2, in
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During development, neurons of the mammalian cerebral cortex are generated at distant sites and must migrate to their final location. The signaling mechanisms that are involved in these migrations are now being elucidated. McEvilly et al. examined the role of two POU-domain transcription factors, Brn-1 and Brn-2, in
+4 more sources
Responsive Layer-by-layer Films
2022Layer-by-layer (LbL) assembly is the process of building functional multilayered thin films. Owing to its highly modular and versatile nature, it has been used to coat a wide variety of different surfaces, including inorganic substrates, membranes, implants, nanoparticles and even living cells. It provides ways to induce responsiveness through both the
Hujaya, Sry Dewi +3 more
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Layer‐by‐Layer Constructed Macroporous Architectures
Angewandte Chemie International Edition, 2007Bottoms up! Films were built up in a layer-by-layer fashion using high-molar-mass double-stranded DNA and cationic poly(ferrocenylsilane) polyelectrolytes. In this one-step bottom-up self-assembly approach, a unique macroporous architecture featuring biocompatible and redox-active components was obtained.
Ma, Y. +4 more
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2010
The porous structure of Fig. 6.6 was produced by 3D printing. Shape and pore size were computationally designed. The printer deposited a layer of molten polysulfonamide (PSA) followed by deposition of a wax layer and this printing is repeated until the required scaffold size is obtained.
Jozef A. Helsen, Yannis Missirlis
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The porous structure of Fig. 6.6 was produced by 3D printing. Shape and pore size were computationally designed. The printer deposited a layer of molten polysulfonamide (PSA) followed by deposition of a wax layer and this printing is repeated until the required scaffold size is obtained.
Jozef A. Helsen, Yannis Missirlis
openaire +1 more source