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An ideal sensor system is a combination of a selective receptor, an effective transducer, and a sensitive detector. To utilize molecularly imprinted polymers (MIPs) as responsive recognition phases in sensors, the employment of fluorescent molecules or nanoparticles (NPs) that show prominent changes in their spectroscopic properties after binding of the target molecule in the MIP’s cavity is particularly attractive. Such fluorescent MIPs (fMIPs) act through target-induced quenching, enhancement, or spectral shifts of the fluorescence. This contribution introduces different strategies of incorporation of fluorescent dyes, probes, and NPs into fMIPs. In addition, various sensing mechanisms are reviewed, and depending on the application of the sensor, the different deployable formats, their advantages, drawbacks, and impact will be presented and discussed.
The investigation of physical properties and chemical composition generates data important for answering art-historical questions. Due to technological developments, technical diagnostics in art and culture are in ever-greater demand in such fields of transdisciplinary research. Based on one example, a collar drawing from the Berlin Diez albums, the present paper aims to give some insights into the multi-instrumental approach in the material analysis of cultural artefacts. The same methods were also applied to other drawings from the Diez Albums.
Welding is the most important joining technology. In the steel construction
industry, e.g. production of windmill sections, welding accounts for a
main part of the manufacturing costs and resource consumption. Moreover, social
issues attached to welding involve working in dangerous environments. This aspect
has unfortunately been neglected so far, in light of a predominant focus on economics
combined with a lack of suitable assessment methods. In this chapter,
exemplary welding processes are presented that reduce the environmental and
social impacts of thick metal plate welding. Social and environmental Life Cycle
Assessments for a thick metal plate joint are conducted for the purpose of
expressing and analysing the social and environmental impacts of welding.
Furthermore, it is shown that state-of-the-art technologies like Gas Metal Arc
Welding with modified spray arcs and Laser Arc-Hybrid Welding serve to increase
social and environmental performance in contrast to common technologies, and
therefore offer great potential for sustainable manufacturing.
Seit 2009 entsteht die historisch-kritische Hybridediton von Goethes „Faust“. Im Januar 2013 ist im Rahmen dieses editorischen Unternehmens die Röntgenfluoreszenzanalyse (RFA) zum Einsatz gekommen, um auf der Grundlage der Zusammensetzung der verwendeten Eisengallustinten entstehungsgeschichtliche Erkenntnisse über das handschriftliche Material zu gewinnen. Im Mittelpunkt stand neben der zeitlichen Einordnung von Handschriften vor allem die Identifikation von unterscheidbaren Bearbeitungsschichten innerhalb der jeweiligen Handschrift. Besonderes Interesse kommt dabei denjenigen Handschriften zu, von denen sicher ist oder angenommen wird, dass Goethe sie über längere Zeit hinweg oder sogar in sehr großen Abständen bearbeitet hat.
Die von der traditionellen Philologie in Anschlag gebrachten äußeren und inneren Gründe und die darauf gestützten Hypothesen haben nicht ausgedient. Hypothesen zur Datierung von Handschriften Goethes lassen sich in der Regel gut anhand bestehender materieller Zusammenhänge (wie der Zuordnung des Papiers in Kombination mit der Bestimmung der Schreiberhand) verifizieren. Dagegen ermöglicht materialwissenschaftliche Charakterisierung der Eisengallustinten alleine zunächst noch keine vergleichbar genauen Datierungen. Eine Kombination der beiden Zugänge und Verfahren kann jedoch dort Erkenntnisse zutage fördern, wo die traditionellen philologischen Mittel ausgeschöpft sind. Dies wird exemplarisch innerhalb der Publikation gezeigt werden.
The implementation of fluorescent methods is of outstanding importance in the field of optical chemical sensor Technology and biosciences. Their bioanalytical applications are manifold including fluorescence microscopy, fluorescence in situ hybridization, DNA sequencing, fluorescence-activated cell sorting, immunoassays, analysis of DNA and Protein microarrays, and quantitative PCR, just to name a few examples. Particularly, fluorescence microscopy is a valuable method in the versatile field of biomedical imaging methods which nowadays utilizes different fluorescence Parameters like emission wavelength/Color and lifetime for the discrimination between different targets. Sectional Images are available with confocal microscopes. Tissue, cells or single cellular compartments can be stained and visualized with fluorescent dyes and biomolecules can be selectively labeled with fluorescent dyes to Monitor biomolecular interactions inside cells or at Membrane bound receptors.
On the other hand , fluorophores can act as indicator (or "molecular probe") to visualize intrinsically colorless and non-fluorescent ionic and neutral analytes such as pH, Oxygen (pO2), metal ions, anions, hydrogen peroxide or bioactive small organic molecules such as Sugars or nucleotides. Thereby, their photoluminescent properties (fluorescence or phoporescence intensity, exitation and/or Emission wavelength, emission lifetime or anisotropy) respond to the presence of these species in their immediate Environment. In general, the use of luminescent probes has the advantage that they can be delivered directly into the sample, and detected in a contactless remote mode. By now, these probes are often encapsulated in different types of nanoparticles (NPs) made from (biodegradable) organic polymers, biopolymers or inorganic materials like silica or bound to their surface.
China
(2017)
The contributions included in the book provide a reconnaissance on the conservation rules and current protection policies of more than 100 countries, with particular attention to the emerging nations and twentieth-century architecture. The contributions illustrate the critical issues related to architectural listings, with a brief history of national approaches, a linkography and a short bibliography. The book also provides a short critical lexicography, with 12 papers written by scholars and experts including topics on identities, heritages, conservation, memories and the economy. By examining the methods used to designate building as heritage sites across the continents, this book provides a com¬prehensive overview of current protection policies of twentieth-century architecture as well as the role of architectural history.
Inductively coupled plasma mass spectrometry (ICP-MS) is based on formation of positively charged atomic ions in a high-frequency inductively coupled Argon plasma at atmospheric pressure. The ions are extracted and transferred from the plasma source into a mass analyzer operated at high vacuum via an interface equipped with a sampling and a skimmer cone. The ions are separated in the mass analyzer according to their charge to mass ratio. The ions are converted at a conversion dynode and are detected by use of a secondary electron multiplier or a Faraday cup.
From an analytical point of view, ICP-MS is a well-established method for multi-elemental analysis in particular for elements at trace- and ultra-trace levels. Furthermore, methods based on ICP-MS offer simple quantification concepts, for which usually (liquid) standards are applied, low matrix effects compared to other conventional analytical techniques, and relative limits of detection (LODs) in the low pg g−1 range and absolute LODs down to the attomol range. For these applications, ICP-MS excels by a high sensitivity which is independent of the molecular structure and a wide linear dynamic range. It has found acceptance in various application areas and during the last decade ICP-MS is also more and more applied for detection of rare earth elements particularly in the life sciences.
Due to the fact that all molecules introduced into the high temperature of the plasma in the ion source were completely dissociated and broken down into atoms, which are subsequently ionized, all elemental species information is completely lost. However, if the different species are separated before they enter the plasma by using adequate fractionation or separation techniques, then ICP-MS can be used as a very sensitive element-specific detector. We will discuss this feature of ICP-MS in this chapter in more detail at hand of the speciation of gadolinium-containing contrast agents.
Inductively coupled plasma mass spectrometry (ICP-MS) is a well-established analytical method for multi-elemental analysis in particular for elements at trace and ultra-trace levels. It has found acceptance in various application areas during the last decade. ICP-MS is also more and more applied for detection in the life sciences. For these applications, ICP-MS excels by a high sensitivity, which is independent of the molecular structure of the analyte, a wide linear dynamic range and by excellent multi-element capabilities. Furthermore, methods based on ICP-MS offer simple quantification concepts, for which usually (liquid) standards are applied, low matrix effects compared to other conventional bioanalytical techniques, and relative limits of detection (LODs) in the low pg g−1 range and absolute LODs down to the attomol range.
In this chapter, we focus on new applications where the multi-element capability of ICP-MS is used for detection of lanthanoides or rare earth elements, which are applied as elemental stains or tags of biomolecules and in particular of antibodies.
Given their unique properties, ultrashort laser pulses with durations in the femtosecond to picosecond range currently open new avenues in the field of laser materials processing, resulting in groundbreaking new applications based on laser-induced surface functionalization. This article reviews the usability of temporally distributed energy deposition via double-pulse irradiation in applications based on laser ablation. This includes simple new techniques for surface nanostructuring and improved sensitivities in spectroscopic material analyses.
Im Beitrag wird über die mühevolle Sanierung von Objekten eines Kunstzweiges in Polen berichtet, der eine besondere diffizile Stellung in der langen Reihe von Werken der Kunst einnimmt. Es geht dabei um die bleiverglasten farbigen Fensterverschlüsse in Kirchen oder Profangebäuden. Das sind feingliedrige Gitterwerke aus zerbrechlichen und korrosionsanfälligen Materialien, die durch aggressive Umweltschadstoffe schweren Belastungen ausgesetzt sind. Wie bei keinem anderen Kunstzweig haben die einzelnen Bestandteile der Glasmalerei sowohl praktisch-technische als auch ästhetisch-künstlerische Aufgaben zu erfüllen. Bei der Restaurierung dieser Glasmalereifenster geht darum, neuentwickelte Methoden der Restaurierung oder Konservierung anzuwenden und letzte Erkenntnisse naturwissenschaftlicher Forschung zu nutzen. Diese Projekte sind ein Beispiel der interdisziplinären Zusammenarbeit zwischen Denkmalpflegern, Naturwissenschaftlern und Restauratoren aus Deutschland und Polen. An ausgewählten Restaurierungsobjekten wird von der fachgerechten, denkmalpflegerisch verantwortungsbewussten Arbeit berichtet.