20 research outputs found

    Tribochemical Analysis of Si-Doped and Non-Doped Diamond-Like Carbon for Application Within the Internal Combustion Engine

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    Due to the ever-increasing global drivers focused on increasing fuel economy in tandem with decreasing the environmental impact of automobile usage; the automotive sector is rapidly embracing widespread use of Diamond-Like Carbon (DLC) coatings. DLC coatings have the potential to reduce the required level of many traditional oil additives that can negatively impact on both the environment and certain parts of the car engine, specifically the catalytic converter. Furthermore DLC shows promise with regards to reducing friction and can be highly efficacious at reducing wear. The field of research into DLC is ever-developing and many examples of doped DLCs exist. Currently, there is no firm consensus on which dopants are best to include in the DLC matrix when it is being employed within the automotive field. Adding to this the lack of a sufficient understanding of how current engine oil additives interact with DLC; the motivation for undertaking an in-depth analysis of both a-C:H and Si-DLC with current engine oils is clear. This thesis addresses these issues and presents evidence on how both Si-DLCs and a-C:H DLCs interact with current engine oil additives to reduce wear in the engine. The fundamental tribochemistry governing DLC’s interactions at the interfaces are explored with specific reference to wearing of Si-DLCs. Tribological experiments are undertaken to emulate certain conditions within an engine using both reciprocating pin-on-plate tribometers and pin-on-disc tribometers. A novel Si-DLC is created and tested to explore the effect of tri-doping on the coating. Advanced surface analysis techniques are used to gain a full understanding of what processes have taken place at the interfaces. This includes use of X-ray Photoelectron Spectroscopy, Secondary Ion Mass Spectrometry and scanning light interferometry. Key findings include the effect that Si doping has on the DLC coating with regards to structure, friction and wear. The fundamental observation that the Si-DLCs examined consistently exhibited wear at higher rates when compared to the a-C:

    The biomolecular characterization of a finger ring contextually dated to the emergence of the Early Neolithic from Syltholm, Denmark.

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    We present the analysis of an osseous finger ring from a predominantly early Neolithic context in Denmark. To characterize the artefact and identify the raw material used for its manufacture, we performed micro-computed tomography scanning, zooarchaeology by mass spectrometry (ZooMS) peptide mass fingerprinting, as well as protein sequencing by liquid chromatography tandem mass spectrometry (LC-MS/MS). We conclude that the ring was made from long bone or antler due to the presence of osteons (Haversian canals). Subsequent ZooMS analysis of collagen I and II indicated that it was made from Alces alces or Cervus elaphus material. We then used LC-MS/MS analysis to refine our species identification, confirming that the ring was made from Cervus elaphus, and to examine the rest of the proteome. This study demonstrates the potential of ancient proteomics for species identification of prehistoric artefacts made from osseous material

    Quantitative metaproteomics of medieval dental calculus reveals individual oral health status

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    Mineralized plaque, or dental calculus, is a valuable reservoir of the ancient oral microbiome. Here, the authors use quantitative metaproteomics to analyze the dental calculus of 21 individuals from a medieval cemetery, identifying human and microbial proteins that shed light on their oral health status

    An integrated analysis of Maglemose bone points reframes the Early Mesolithic of Southern Scandinavia

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    The extensive peat bogs of Southern Scandinavia have yielded rich Mesolithic archaeological assemblages, with one of the most iconic artefacts being the bone point. Although great in number they remain understudied. Here we present a combined investigation of the typology, protein-based species composition, and absolute chronology of Maglemosian bone points. The majority of the bone points are made from cervids and bovines. However, changes both in species composition and barb morphology can be directly linked to a paucity of finds lasting nearly 600 years in Southern Scandinavia around 10,300 cal BP. We hypothesize that this hiatus was climate-driven and forced hunter-gatherers to abandon the lakes. Furthermore, the marked change in bone points coincides with a change in lithic technology. We, therefore, propose that the Maglemose culture in Southern Scandinavia is fundamentally divided into an Early Complex and a Late Complex

    Article The extinct Sicilian wolf shows a complex history of isolation and admixture with ancient dogs

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    The Sicilian wolf remained isolated in Sicily from the end of the Pleistocene until its extermination in the 1930s-1960s. Given its long-term isolation on the island and distinctive morphology, the genetic origin of the Sicilian wolf remains debated. We sequenced four nuclear genomes and five mitogenomes from the seven existing museum specimens to investigate the Sicilian wolf ancestry, rela-tionships with extant and extinct wolves and dogs, and diversity. Our results show that the Sicilian wolf is most closely related to the Italian wolf but carries ancestry from a lineage related to European Eneolithic and Bronze Age dogs. The average nucleotide diversity of the Sicilian wolf was half of the Italian wolf, with 37-50% of its genome contained in runs of homozygosity. Overall, we show that, by the time it went extinct, the Sicilian wolf had high inbreeding and low-genetic diversity, consistent with a population in an insular environment

    The extinct Sicilian wolf shows a complex history of isolation and admixture with ancient dogs

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    The Sicilian wolf remained isolated in Sicily from the end of the Pleistocene until its extermination in the 1930s–1960s. Given its long-term isolation on the island and distinctive morphology, the genetic origin of the Sicilian wolf remains debated. We sequenced four nuclear genomes and five mitogenomes from the seven existing museum specimens to investigate the Sicilian wolf ancestry, relationships with extant and extinct wolves and dogs, and diversity. Our results show that the Sicilian wolf is most closely related to the Italian wolf but carries ancestry from a lineage related to European Eneolithic and Bronze Age dogs. The average nucleotide diversity of the Sicilian wolf was half of the Italian wolf, with 37–50% of its genome contained in runs of homozygosity. Overall, we show that, by the time it went extinct, the Sicilian wolf had high inbreeding and low-genetic diversity, consistent with a population in an insular environmen

    A 5700 year-old human genome and oral microbiome from chewed birch pitch

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    Abstract: The rise of ancient genomics has revolutionised our understanding of human prehistory but this work depends on the availability of suitable samples. Here we present a complete ancient human genome and oral microbiome sequenced from a 5700 year-old piece of chewed birch pitch from Denmark. We sequence the human genome to an average depth of 2.3Ă— and find that the individual who chewed the pitch was female and that she was genetically more closely related to western hunter-gatherers from mainland Europe than hunter-gatherers from central Scandinavia. We also find that she likely had dark skin, dark brown hair and blue eyes. In addition, we identify DNA fragments from several bacterial and viral taxa, including Epstein-Barr virus, as well as animal and plant DNA, which may have derived from a recent meal. The results highlight the potential of chewed birch pitch as a source of ancient DNA
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