Inorganic nanoparticles for functional coating applications

[no abstract

Morphology control of zinc oxide films via polysaccharide-mediated, low temperature, chemical bath deposition

In this study we present a three-step process for the low-temperature chemical bath deposition of crystalline ZnO films on glass substrates. The process consists of a seeding step followed by two chemical bath deposition steps. In the second step (the first of the two bath deposition steps), a natural polysaccharide, namely hyaluronic acid, is used to manipulate the morphology of the films. Previous experiments revealed a strong influence of this polysaccharide on the formation of zinc oxide crystallites. The present work aims to transfer this gained knowledge to the formation of zinc oxide films. The influence of hyaluronic acid and the time of its addition on the morphology of the resulting ZnO film were investigated. By meticulous adjustment of the parameters in this step, the film morphology can be tailored to provide an optimal growth platform for the third step (a subsequent chemical bath deposition step). In this step, the film is covered by a dense layer of ZnO. This optimized procedure leads to ZnO films with a very high electrical conductivity, opening up interesting possibilities for applications of such films. The films were characterized by means of electron microscopy, X-ray diffraction and measurements of the electrical conductivity.BMB

Towards a Unifying Cognitive, Neurophysiological, and Computational Neuroscience Account of Schizophrenia.

Psychotic experiences may be understood as altered information processing due to aberrant neural computations. A prominent example of such neural computations is the computation of prediction errors (PEs), which signal the difference between expected and experienced events. Among other areas showing PE coding, hippocampal-prefrontal-striatal neurocircuits play a prominent role in information processing. Dysregulation of dopaminergic signaling, often secondary to psychosocial stress, is thought to interfere with the processing of biologically important events (such as reward prediction errors) and result in the aberrant attribution of salience to irrelevant sensory stimuli and internal representations. Bayesian hierarchical predictive coding offers a promising framework for the identification of dysfunctional neurocomputational processes and the development of a mechanistic understanding of psychotic experience. According to this framework, mismatches between prior beliefs encoded at higher levels of the cortical hierarchy and lower-level (sensory) information can also be thought of as PEs, with important consequences for belief updating. Low levels of precision in the representation of prior beliefs relative to sensory data, as well as dysfunctional interactions between prior beliefs and sensory data in an ever-changing environment, have been suggested as a general mechanism underlying psychotic experiences. Translating the promise of the Bayesian hierarchical predictive coding into patient benefit will come from integrating this framework with existing knowledge of the etiology and pathophysiology of psychosis, especially regarding hippocampal-prefrontal-striatal network function and neural mechanisms of information processing and belief updating

Towards the Visual Proteomics of C. reinhardtii using High-throughput Collaborative in situ Cryo-ET

No abstract availabl

Evolution of the Morphologies of Zinc Oxide Mesocrystals Under the Influence of Natural Polysaccharides

In the present investigation, we have analyzed the influence of naturally occurring negatively charged polysaccharides on the morphology of zinc oxide obtained in low-temperature precipitation experiments. Performing detailed analyses of scanning electron microscopy (SEM) micrographs, we inferred the morphology of individual nanocrystals as well as the construction of their aggregates. X-ray and electron diffraction were used to identify directions of preferred growth. Whereas addition of hyaluronic acid (HYA) to the synthesis batch resulted in a rod-like morphology of the primary crystallites, addition of chondroitin-6-sulfate (C6S) leads to platelet-like crystallites. Despite their different shapes, the respective subunits aggregated in similar ways, with perfect orientation with regard to their <i>a</i>–<i>b</i> planes, thus leading to symmetrical superstructures. Further growth proceeded, via different mechanisms, that is, subunit growth or further aggregation of subunits, dependent on whether the precipitation was performed in the presence of HYA or C6S. These details were elucidated by testing different concentrations and reaction times. The formation of the morphological characteristics could be attributed to subtle differences in the nature of the two polysaccharides. Understanding how to direct the formation of mesocrystal morphologies is important for enhancing material properties, especially for highly demanding applications of zinc oxide, such as semiconducting films