1,046 research outputs found
Untersuchungen über die mastleistung von schweinen auf einer prüfungsstation sowie auf einem zuchtbetrieb
International audienc
Genetic parameters of the gestation length in Tyrolean Fleckvieh
International audienc
Recruitment of dendritic cells and macrophages during T cell-mediated synovial inflammation
Adoptive transfer of adjuvant-induced arthritis was used in this study to examine local macrophages and dendritic cells (DCs) during T cell-mediated synovial inflammation. We studied the influx of CD11b+CD11c+ putative myeloid DCs and other non-lymphoid CD45+ cells into synovium-rich tissues (SRTs) of the affected hind paws in response to a pulse of autoreactive thoracic duct cells. Cells were prepared from the SRTs using a collagenase perfusion-digestion technique, thus allowing enumeration and phenotypic analysis by flow cytometry. Numbers of CD45+ cells increased during the first 6 days, with increases in CD45+MHC (major histocompatibility complex) II+ monocyte-like cells from as early as day 3 after transfer. In contrast, typical MHC II- monocytes, mainly of the CD4- subset, did not increase until 12 to 14 days after cell transfer, coinciding with the main influx of polymorphonuclear cells. By day 14, CD45+MHC IIhi cells constituted approximately half of all CD45+ cells in SRT. Most of the MHC IIhi cells expressed CD11c and CD11b and represented putative myeloid DCs, whereas only approximately 20% were CD163+ macrophages. Less than 5% of the MHC IIhi cells in inflamed SRT were CD11b-, setting a maximum for any influx of plasmacytoid DCs. Of the putative myeloid DCs, a third expressed CD4 and both the CD4+ and the CD4- subsets expressed the co-stimulatory molecule CD172a. Early accumulation of MHC IIhiCD11c+ monocyte-like cells during the early phase of T cell-mediated inflammation, relative to typical MHC II- blood monocytes, suggests that recruited monocytes differentiate rapidly toward the DC lineage at this stage in the disease process. However, it is possible also that the MHC IIhiCD11c+ cells originate from a specific subset of DC-like circulating mononuclear cells
Novel Approaches towards Highly Selective Self-Powered Gas Sensors
The prevailing design approaches of semiconductor gas sensors struggle to overcome most of their current limitations such as poor selectivity, and high power consumption. Herein, a new sensing concept based on devices that are capable of detecting gases without the need of any external power sources required to activate interaction of gases with sensor or to generate the sensor read out signal. Based on the integration of complementary functionalities (namely; powering and sensing) in a singular nanostructure, self-sustained gas sensors will be demonstrated. Moreover, a rational methodology to design organic surface functionalization that provide high selectivity towards single gas species will also be discussed. Specifically, theoretical results, confirmed experimentally, indicate that precisely tuning of the sterical and electronic structure of sensor material/organic interfaces can lead to unprecedented selectivity values, comparable to those typical of bioselective processes. Finally, an integrated gas sensor that combine both the self-powering and selective detection strategies in one single device will also be presented. © 2015 Published by Elsevier Ltd.Peer ReviewedPostprint (published version
A note on the Near Flat Limit for strings in the Maldacena-Nunez background
Recently Maldacena and Swanson suggested a new limit of string theory on the
background, the so called near flat space limit. The
resulting reduced theory interpolates between the pp-wave limit and giant
magnon type string solutions. It was shown that the reduced model possess many
features of the original theory. On the other hand, theories with less
supersymmetry are of great importance for the string/gauge theory
correspondence. In this paper we study the near flat limit reduction of string
theory on the Maldacena-Nunez background, which is dual to Yang-Mills
theory. The reduced model interpolates between the pp-wave limit and a certain
magnon type subsector of the theory. The similarity of the structures of the
reduced model obtained here and that by Maldacena and Swanson indicates the
possibility of existence of integrable subsectors of strings on the
Maldacena-Nunez background.Comment: 1+23 pages, introduction improved and clarifying comments added,
references added, results remain unchange
Machine-learning potentials for nanoscale simulations of deformation and fracture: example of TiB ceramic
Machine-learning interatomic potentials (MLIPs) offer a powerful avenue for
simulations beyond length and timescales of ab initio methods. Their
development for investigation of mechanical properties and fracture, however,
is far from trivial since extended defects -- governing plasticity and crack
nucleation in most materials -- are too large to be included in the training
set. Using TiB as a model ceramic material, we propose a strategy for
fitting MLIPs suitable to simulate mechanical response of monocrystals until
fracture. Our MLIP accurately reproduces ab initio stresses and failure
mechanisms during room-temperature uniaxial tensile deformation of TiB at
the atomic scale ( atoms). More realistic tensile tests (low
strain rate, Poisson's contraction) at the nanoscale (--10
atoms) require MLIP up-fitting, i.e. learning from additional ab initio
configurations. Consequently, we elucidate trends in theoretical strength,
toughness, and crack initiation patterns under different loading directions. To
identify useful environments for further up-fitting, i.e., making the MLIP
applicable to a wider spectrum of simulations, we asses transferability to
other deformation conditions and phases not explicitly trained on
Platinum recycling going green via induced surface potential alteration enabling fast and efficient dissolution
The recycling of precious metals, for example, platinum, is an essential aspect of sustainability for the modern industry and energy sectors. However, due to its resistance to corrosion, platinum-leaching techniques rely on high reagent consumption and hazardous processes, for example, boiling aqua regia; a mixture of concentrated nitric and hydrochloric acid. Here we demonstrate that complete dissolution of metallic platinum can be achieved by induced surface potential alteration, an 'electrode-less' process utilizing alternatively oxidative and reductive gases. This concept for platinum recycling exploits the so-called transient dissolution mechanism, triggered by a repetitive change in platinum surface oxidation state, without using any external electric current or electrodes. The effective performance in non-toxic low-concentrated acid and at room temperature is a strong benefit of this approach, potentially rendering recycling of industrial catalysts, including but not limited to platinum-based systems, more sustainable
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