Smaller and more complex three-dimensional periodic nanostructures are part of the next generation of integrated electronic circuits.Additionally,decreasing the dimensions of nanostructures increases the effect of lin...Smaller and more complex three-dimensional periodic nanostructures are part of the next generation of integrated electronic circuits.Additionally,decreasing the dimensions of nanostructures increases the effect of line-edge roughness on the performance of the nanostructures.Efficient methods for characterizing three-dimensional nanostructures are required for process control.Here,extreme-ultraviolet(EUV)scatterometry is exploited for the analysis of line-edge roughness from periodic nanostructures.In line with previous observations,differences are observed between line edge and line width roughness.The angular distribution of the diffuse scattering is an interplay of the line shape,the height of the structure,the roughness along the line,and the correlation between the lines.Unfortunately,existing theoretical methods for characterizing nanostructures using scatterometry do not cover all these aspects.Examples are shown here and the demands for future development of theoretical approaches for computing the angular distribution of the scattered X-rays are discussed.展开更多
Very small superparamagnetic iron oxide nanoparticles (VSOPs) rapidly accumulate in atherosclerotic lesions, thereby enabling plaque visualization by magnetic resonance imaging (MRI). This study was performed to i...Very small superparamagnetic iron oxide nanoparticles (VSOPs) rapidly accumulate in atherosclerotic lesions, thereby enabling plaque visualization by magnetic resonance imaging (MRI). This study was performed to identify the uptake mechanisms of VSOPs into atherosclerotic plaques. Low-density lipoprotein receptor-deficient (LDLR^-/-) mice with advanced atherosclerosis were analyzed using MRI and transmission electron microscopy (TEM) at various time points after intravenous administration of VSOPs. Post-mortem MRI detected VSOP labeling of atherosclerotic plaques 10 min after injection, and the signal increased over the first 3 h. TEM revealed that the intensive plaque labeling was mediated by accelerated transcytosis of VSOPs through endothelial cells overlaying atherosclerotic lesions. Experiments with endocytosis inhibitors and small interfering RNA (siRNA) revealed a dynamin-dependent mechanism involving both clathrin- and caveolin-mediated processes. In cell culture experiments, endothelial VSOP uptake was enhanced under proatherogenic flow and TNFα stimulation, conditions that are both present in plaque areas. Our study demonstrates that VSOPs enable non-invasive MRI assessment of accelerated endothelial transcytosis, an important pathomechanism in atherosclerotic plaque formation.展开更多
基金funding from the Electronic Component Systems for European Leadership Joint Undertaking under grant agreement No 826589|MADEin4This Joint Undertaking receives support from the European Union’s Horizon 2020 research and innovation programme and The Netherlands,France,Belgium,Germany,Czech Republic,Austria,Hungary,and IsraelOpen Access funding enabled and organized by Projekt DEAL.
文摘Smaller and more complex three-dimensional periodic nanostructures are part of the next generation of integrated electronic circuits.Additionally,decreasing the dimensions of nanostructures increases the effect of line-edge roughness on the performance of the nanostructures.Efficient methods for characterizing three-dimensional nanostructures are required for process control.Here,extreme-ultraviolet(EUV)scatterometry is exploited for the analysis of line-edge roughness from periodic nanostructures.In line with previous observations,differences are observed between line edge and line width roughness.The angular distribution of the diffuse scattering is an interplay of the line shape,the height of the structure,the roughness along the line,and the correlation between the lines.Unfortunately,existing theoretical methods for characterizing nanostructures using scatterometry do not cover all these aspects.Examples are shown here and the demands for future development of theoretical approaches for computing the angular distribution of the scattered X-rays are discussed.
文摘Very small superparamagnetic iron oxide nanoparticles (VSOPs) rapidly accumulate in atherosclerotic lesions, thereby enabling plaque visualization by magnetic resonance imaging (MRI). This study was performed to identify the uptake mechanisms of VSOPs into atherosclerotic plaques. Low-density lipoprotein receptor-deficient (LDLR^-/-) mice with advanced atherosclerosis were analyzed using MRI and transmission electron microscopy (TEM) at various time points after intravenous administration of VSOPs. Post-mortem MRI detected VSOP labeling of atherosclerotic plaques 10 min after injection, and the signal increased over the first 3 h. TEM revealed that the intensive plaque labeling was mediated by accelerated transcytosis of VSOPs through endothelial cells overlaying atherosclerotic lesions. Experiments with endocytosis inhibitors and small interfering RNA (siRNA) revealed a dynamin-dependent mechanism involving both clathrin- and caveolin-mediated processes. In cell culture experiments, endothelial VSOP uptake was enhanced under proatherogenic flow and TNFα stimulation, conditions that are both present in plaque areas. Our study demonstrates that VSOPs enable non-invasive MRI assessment of accelerated endothelial transcytosis, an important pathomechanism in atherosclerotic plaque formation.
