Global ETD Search

51	Gas Sensors Based on Ceramic p-n Heterocontacts Seymen Murat Aygun January 2004 (has links) Thesis (M.S.); Submitted to Iowa State Univ., Ames, IA (US); 19 Dec 2004. / Published through the Information Bridge: DOE Scientific and Technical Information. "IS-T 2498" Seymen Murat Aygun. US Department of Energy 12/19/2004. Report is also available in paper and microfiche from NTIS.
52	Estudo da sinterabilidade de ligas de n?quel obtidas por meio dos portadores de liga sic, si3n4 ou si met?lico com grafita Nicodemo, Juliana Pivotto 06 June 2012 (has links) Made available in DSpace on 2014-12-17T14:07:04Z (GMT). No. of bitstreams: 1 JulianaPN_DISSERT.pdf: 2953662 bytes, checksum: 47355bc7fed206f60c6c6b5d8565099b (MD5) Previous issue date: 2012-06-06 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / Nickel alloys are frequently used in applications that require resistance at high temperatures associated with resistance to corrosion. Alloys of Ni-Si-C can be obtained by means of powder metallurgy in which powder mixtures are made of metallic nickel powders with additions of various alloying carriers for such were used in this study SiC, Si3N4 or Si metal with graphite. Carbonyl Ni powder with mean particle size of 11 mM were mixed with 3 wt% of SiC powders with an average particle size of 15, 30 and 50 μm and further samples were obtained containing 4 to 5% by mass of SiC with average particle size of 15 μm. Samples were also obtained by varying the carrier alloy, these being Si3N4 powder with graphite, with average particle size of 1.5 and 5 μm, respectively. As a metallic Si graphite with average particle size of 12.5 and 5 μm, respectively. The reference material used was nickel carbonyl sintered without adding carriers. Microstructural characterization of the alloys was made by optical microscopy and scanning electron microscopy with semi-quantitative chemical analysis. We determined the densities of the samples and measurement of microhardness. We studied the dissociation of carriers alloy after sintering at 1200 ? C for 60 minutes. Was evaluated also in the same sintering conditions, the influence of the variation of average particle size of the SiC carrier to the proportion of 3% by mass. Finally, we studied the influence of variation of the temperatures of sintering at 950, 1080 and 1200 ? C without landing and also with heights of 30, 60, 120 and 240 minutes for sintering where the temperature was 950 ?C. Dilatometry curves showed that the SiC sintered Ni favors more effectively than other carriers alloy analyzed. SiC with average particle size of 15 μm active sintering the alloy more effectively than other SiC used. However, with the chemical and morphological analyzes for all leagues, it was observed that there was dissociation of SiC and Si3N4, as well as diffusion of Si in Ni matrix and carbon cluster and dispersed in the matrix, which also occurred for the alloys with Si carriers and metallic graphite. So the league that was presented better results containing Si Ni with graphite metallic alloy as carriers, since this had dispersed graphite best in the league, reaching the microstructural model proposed, which is necessary for material characteristic of solid lubricant, so how we got the best results when the density and hardness of the alloy / Ligas de N?quel s?o freq?entemente utilizadas em aplica??es que requerem resist?ncia mec?nica a elevadas temperaturas associada ? resist?ncia ? corros?o. Ligas de Ni-Si-C podem ser obtidas por meio de metalurgia do p? em que s?o realizadas misturas de p?s de n?quel met?lico com adi??es de p?s de diferentes portadores de liga, para tal foram utilizados neste trabalho SiC, Si3N4 ou Si met?lico com grafita. P?s de Ni carbonila com tamanho m?dio de part?culas de 11 μm foram misturados a 3% em massa de p?s de SiC com tamanho m?dio de part?culas de 15, 30 e 50 μm e foram obtidas ainda amostras contendo 4 e 5% em massa de SiC com tamanho m?dio de part?culas de 15 μm. Tamb?m foram obtidas amostras variando-se o portador de liga, sendo estes p?s de Si3N4 com grafita, com tamanho m?dio de part?culas de 1,5 e 5 μm, respectivamente. Assim como Si met?lico com grafita, com tamanho m?dio de part?culas de 12,5 e 5 μm, respectivamente. O material de refer?ncia adotado foi n?quel carbonila sinterizado sem adi??o de portadores. A caracteriza??o microestrutural das ligas foi feita por microscopia ?ptica e eletr?nica de varredura com an?lise qu?mica semi-quantitativa. Foram determinadas as densidades das amostras e obtidas medidas de microdureza Vickers. Foi estudada a dissocia??o dos portadores de liga ap?s sinteriza??o em 1200 ?C durante 60 minutos. Foi avaliada, ainda, para as mesmas condi??es de sinteriza??o, a influencia da varia??o do tamanho m?dio de part?culas do portador SiC, para a propor??o de 3% em massa. Por fim, foi estudo a influencia da varia??o das temperaturas de sinteriza??o em 950, 1080 e 1200 ?C sem patamar e, ainda, com patamares de 30, 60, 120 e 240 minutos para sinteriza??o cuja temperatura foi de 950 ?C. As curvas de dilatometria mostraram que o SiC favorece a sinteriza??o do Ni de forma mais eficaz que os demais portadores de liga analisados. O SiC com tamanho m?dio de part?culas de 15 μm ativa a sinteriza??o da liga de forma mais eficaz que os demais SiC utilizados. Por?m, com as an?lises qu?mica e morfol?gica para todas as ligas, foi poss?vel observar que houve dissocia??o do SiC e do Si3N4, assim como difus?o do Si na matriz de Ni e carbono aglomerado e disperso na matriz, o que tamb?m ocorreu para as ligas com portadores Si met?lico e grafita. Portanto, a liga que apresentou melhores resultados foi de Ni contendo Si met?lico com grafita como portadores de liga, j? que esta apresentou grafita melhor dispersa na liga, atingindo o modelo microestrutural proposto, do qual ? necess?rio para material com caracter?stica de lubrificante s?lido, assim como obteve os melhores resultados quando a densidade e dureza da liga
53	Vliv magnetického pole na vlastnosti fotovoltaických článků / Influence of magnetic field on photovoltaic solar cell Kadlec, Michal January 2013 (has links) This thesis describes the issue of PN junction of photovoltaic cells, photovoltaic effect physics, basic materials used in photovoltaic and their properties, important for the area of photovoltaic. It deals with the problems of magnetism focused on electromagnetic fields. Experimental facility for measuring the influence of magnetic field on the solar cells through the Helmholtz coils was constructed. This work also dealing with the influence of magnetic radiation on photovoltaic cells and the influence of electromagnetic waves on the volt-ampere characteristics of the photovoltaic cell.
54	Nickel-Catalyzed Hydroboration and Hydrosilylation Hossain, Md Istiak January 2020 (has links) No description available. Chemistry Inorganic Chemistry Organic Chemistry hydroboration hydrosilylation aldehyde imine reduction alkene nickel nickel hydride catalysis P, N-ligand allyl silane 1,3-diene
55	Highly-doped germanium nanowires: fabrication, characterization, and application Echresh, Ahmad 25 July 2023 (has links) Germanium (Ge) is the most compatible semiconductor material with silicon-based complementary metal-oxide semiconductor technology, which has higher electron and hole mobility than Si, leading to enhanced device performance. In addition, semiconductor nanowires (NWs) have attracted significant attention as promising candidates for next-generation nanoscale devices. Due to their unique geometry and physical properties, NWs show excellent optical and electrical properties such as quantum size effects, enhanced light absorption, and high biological and chemical sensitivity. Furthermore, high response to light irradiation is one of the most significant properties of semiconductor NWs, which makes them excellent candidates for photodetectors. Hence, Ge NWs are promising high-mobility nanostructures for optoelectronic devices. Despite constant improvement in the performance of single NW-based devices, determining their electrical properties remains challenging. Here, a symmetric six-contact Hall bar configuration is developed for top-down fabricated highly doped Ge NWs with different widths down to 30 nm, which simultaneously facilitates Hall effect and four-probe resistance measurements. Furthermore, accurate control of doping and fabrication of metal contacts on n-type doped Ge NWs with low resistance and linear characteristics remain significant challenges in Ge-based devices. Therefore, a combined approach is reported to fabricate Ohmic contacts on n-type doped Ge NWs using ion implantation and rear-side flash lamp annealing. This approach allows the fabrication of axial p–n junctions along the single NWs with different widths. The fabricated devices demonstrated rectifying characteristics in dark conditions. The photoresponse of the axial p–n junction photodetectors was investigated under three different illumination wavelengths of 637 nm, 785 nm, and 1550 nm. Moreover, the fabricated axial p–n junction photodetector demonstrated a high-frequency response up to 1 MHz at zero bias. info:eu-repo/classification/ddc/540 ddc:540
56	INVESTIGAÇÃO TEÓRICA DOS MATERIAIS ZnO:Ba E (Ba, Zn)TiO3 Lacerda, Luis Henrique da Silveira 09 March 2015 (has links) Made available in DSpace on 2017-07-24T19:37:53Z (GMT). No. of bitstreams: 1 Luis Lacerda.pdf: 6157407 bytes, checksum: 67f47ee9ce5d908521ba3d0455add580 (MD5) Previous issue date: 2015-03-09 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Semiconductors materials are largely employed on development of innumerous optical and electronic due to their electronic, optical, ferroelectric and structural properties. Among the semiconductors materials stand out the zinc oxide (ZnO) and the barium titanate (BaTiO3) once shows excellent properties allied to low cost to obtaining. The ZnO is a simple oxide used in technology and largely investigated as an alternative to replace high cost material on development of electronic devices. Similarly, the BaTiO3 has perovskite crystalline structure whose properties present great technological interest. This work evaluated the effect of Ba presence on wurtzite structure and the influence of Zn atoms on tetragonal BaTiO3 properties. The obtained results indicates that the Ba atoms changes drastically the band structure of ZnO, resulting in the decrease of band gap for low quantities and the semiconductor type modification for doping above 25 %. The insertion of such atoms in wurtzite also causes the improvement of ferroelectric properties and the increase of unit cell lattice parameters. In case of Zn-doped BaTiO3, the doping process reduces radically de band gap and the ferroelectric properties regarding to pure material. Likewise, the semiconductor type is also modified by the Zn atoms presence. Based on obtained results for both crystalline systems, was proposed their employed in formation of p-n heterojunction. The heterostructure was evaluated through of four models. The obtained results for each one of these models were used to describe the interface region of ZnO/BaTiO3 heterojunction, proving that the atoms intercalation occurs and is responsible for heterostructure properties. Such properties present this heterostructure as a potential alternative for development of electronic devices, mainly the development of memory devices. The obtained heterostructure requires a low amount energy to electronic conduction process and shows high compatibility between the structure of heterojunction and the SiO2 substrate which is used in development of such devices. / Materiais semicondutores são amplamente empregados no desenvolvimento de vários dispositivos ópticos e eletrônicos variados devido às suas propriedades eletrônicas, ópticas, ferroelétricas e estruturais. Dentre os materiais semicondutores, destacam-se o óxido de zinco (ZnO) e o Titanato de Bário (BaTiO3) uma vez que apresentam excelentes propriedades aliadas ao baixo custo de síntese. O ZnO é um óxido simples amplamente empregado na tecnologia e largamente investigado como uma alternativa para substituição de materiais de custo elevado no desenvolvimento de dispositivos eletrônicos. Por sua vez, o BaTiO3 é um material de estrutura cristalina perovskita cujas propriedades são de grande interesse tecnológico. No presente trabalho avaliou-se o efeito da presença de átomos de Ba na estrutura wurtzita do ZnO e a influência dos átomos de Zn sobre as propriedades do BaTiO3 tetragonal. Os resultados indicaram que os átomos de bário alteram drasticamente a estrutura de bandas do ZnO, resultando na diminuição do band gap para pequenas quantidades e a modificação do tipo de semicondutor para dopagens superiores a 25%. A inserção de tais átomos na estrutura wurtzita também é responsável pelo aprimoramento das propriedades ferroelétricas do material, bem como pelo aumento dos parâmetros de rede da célula unitária. No caso da estrutura do BaTiO3 dopada com Zn observou-se a redução drástica do band gap para o material e a modificação do caráter semicondutor do material; entretanto, ocorreu a redução das propriedades ferroelétricas em relação ao BaTiO3 puro. Com base nos resultados obtidos para ambos os sistemas cristalinos, propôs-se a sua utilização para formação de uma heterojunção do tipo p-n. A heteroestrutura foi avaliada por meio de quatro modelos diferentes. Os resultados obtidos para cada um destes modelos foram utilizados para descrição da estrutura eletrônica da região de interface da heterojunção, comprovando que a intercalação de átomos na interface é observada e mostra-se responsável pelas propriedades observadas para a heteroestrutura. Tais propriedades apontam a heterojunção ZnO/BaTiO3 como uma alternativa em potencial para aplicação no desenvolvimento de dispositivos eletrônicos e, principalmente, no desenvolvimento de dispositivos de armazenamento de dados, devido a diminuição de energia necessária para condução eletrônica. química computacional teoria do funcional de densidade DFT funcional híbrido B3LYP teoria ZnO Wurtzita BaTiO3 Perovskita semicondutor cCerâmica Dopagem Heterojunção p-n Heteroestrutura. computational chemistry density functional theory DFT hybrid functional B3LYP theoretical ZnO Wurtzite BaTiO3 Perosvkite semiconductor ceramic doping p-n heterojunction heterostructure
57	Ligands ferrocéniqes hybrides (P, N) : synthèse, coordination aux métaux et applications en catalyse de couplage d'arylation / Hybrid ferrocene ligands (P, N) : synthesis, coordination to metals and applications in arylation coupling catalysis Dwadnia, Nejib 13 April 2017 (has links) La thématique de recherche développée au cours de cette thèse concerne l’élaboration de nouveaux ligands mixtes ferrocéniques hybrides-(P,N) à conformation contrôlée, robustes et stables à l’air. Ces ligands tétradentes hybrides comportent deux types de fonctions coordinnantes aux propriétés stériques et électroniques distinctes. Leur chimie de coordination avec des métaux tels que l’or ou le palladium a été étudiée et certains complexes d’Au(I) isolés ont été utilisés en catalyse de couplage d’arylation des iodures d’aryles. La première partie de cette thèse porte sur une étude bibliographique concise reflétant la diversité des ligands ferrocénique azotés et hybride-(P,N) et leurs voies de synthèse, pour finalement retracer leur chimie de coordination aux métaux de transition (Pd, Au) ainsi que leurs applications catalytiques. La deuxième partie traite la synthèse d’une famille de composés bis(aminométhyl)-ferrocène et les dérivés associés de manière sélective par amination réductrice du 1,1'- diformylferrocène ou du 1,1'-bis(tert-butyl)-3,3'-diformylferrocène avec une variété d’amines primaires et secondaires. Dans la troisième partie nous présentons les stratégies de synthèse qui ont été utilisées pour la préparation de hybrides-(P,N) ferrocéniques ainsi que leur contrôle conformationnel, et la caractérisation structurale de ces molécules. Leur coordination à des sels de palladium a été étudiée. Les complexes de coordinations correspondants ont étés isolés avec de très bons rendements, et caractérisés en solution par RMN 1H , 13C, 31P, 15N, et à l’état solide par diffraction des rayons X. La quatrième et dernière partie est dédiée à l’étude de la coordination à l’or. Trois nouveaux complexes d’Au(I) dinucléaires, incorporant des ligands ferrocéniques hybride-(P,N), ont étés isolés est caractérisés. L‘un parmi ces complexes a montré une efficacité particulière pour la réaction d’arylation des iodures d’aryles. / The research theme developed during this thesis concerns the development of new hybrid ferrocene hybrid (P, N) ligands with controlled conformation, robust and stable to air. These hybrid tetradent ligands comprise two types of coordinating functions with distinct steric and electronic properties. Their coordination chemistry with metals such as gold or palladium has been studied and some isolated Au (I) complexes have been used in the arylation coupling catalysis of aryl iodides. Ferrocène Ligands hybrides Or Palladium Bis(aminométhyl)-ferrocène Ligands multidentes Phosphore Azote Couplage C-C Fonctionnalisation de ferrocène RMN 15N Ferrocene Hybrid ligands Gold Palladium Bis (aminomethyl)-ferrocene Phosphorus Nitrogen C-C cross Coupling Functionalization of ferrocene 15N NMR 541.2
58	Layered transition metal sulfide- based negative electrode materials for lithium and sodium ion batteries and their mechanistic studies Gao, Suning 21 September 2020 (has links) The environmental concerns over the use of fossil fuels, and their resource constraints, as well as energy security concerns, have spurred great interest in generating electric energy from renewable sources. Solar and wind energy are abundant and potentially readily available. However, the generation of sustainable energies is generally intermittent and these energies have geographical limits which are relative to current large-scale energy generation facilities. To smooth out the intermittency of renewable energy production, low-cost electrical energy storage (EES) devices are becoming highly necessary. Among these EES technologies, lithium ion batteries are one of the most promising EES devices in terms of the characteristics of high gravimetric, volumetric energy density and environmentally friendly compared to lead-acid batteries and Ni-Cd batteries. Other advantages of Li-ion batteries are the ability of being recharged hundreds of times and high stability. Moreover, the dramatically growing market share of hybrid electrical and electrical vehicles in automobiles has motivated the development of high energy and power density LIBs with high mass loading. However, there are still several remaining challenges in LIBs for their further application in grid-scale ESSs. One of the global issues to date is the high costs including the cost of raw materials such as lithium and cobalt, production, machining, and transportation, etc. In addition, the increasing energy demand thereby leads to the pressures on the resource supply chains and thus increasing the cost of LIBs. Therefore, it is urgent to find a complementary or alternative EES device in a short term to satisfy the growing energy demand. Under the background of fast development of LIBs technology as well as the establishment of Li chemistry fundamentals in the last 40 years, rechargeable battery systems utilizing Na element have been extensively studied to develop less expensive and more sustainable ESSs. The sodium resource is abundantly existed in the planet. According to the periodic table, sodium is the most possible alternative to lithium, because it has the similar chemical and physical properties towards to lithium. As a consequence, the established fundamentals in LIBs can be reasonably analogized to SIBs. Moreover, Sodium is readily available from various sources-foods that contain sodium naturally, foods containing salt and other sodium-containing ingredients. Therefore, The study of SIBs technology and sodium chemistry are gaining increasing interests and attentions both in the scientific researchers and battery industry. However, theoretically speaking, the energy density of SIBs is lower than that of LIBs by using same electrode materials because sodium is more than 3 times heavier than Li as well as the standard electrode potential of Na (-2.71 V) is higher than Li (-3.04 V). Therefore, SIBs are not thought as an ideal candidate to substitute LIBs in the fields of small or middle-size portable devices, but are more favorable in a large grid support where the operation cost is the primary choice. Negative electrode is important component in a single cell. Exploring negative electrode materials with high electrochemical performance in LIBs and SIBs is indeed required for fulfilling the spreading energy demand. Among various negative electrode materials, layered transition metal sulfides (MSs) are reckoned as a promising class with high theoretical specific capacity and power capability due to their intrinsically layered structure which is beneficial to the diffusion of Li+ and Na+ . However, layered transition metal sulfides are suffering from intrinsically poor electrical conductivity, volume changes, high irreversibility and sluggish kinetics during Li+ /Na+ storage process. To address these issues, numerous strategies are applied to explore high performance LIBs and SIBs negative electrode materials in this PHD thesis. / Die ökologischen Bedenken hinsichtlich der Nutzung fossiler Brennstoffe und deren Ressourcenbeschränkungen sowie Bedenken hinsichtlich der Energiesicherheit haben großes Interesse an der Erzeugung elektrischer Energie aus erneuerbaren Quellen geweckt. Sonnen- und Windenergie sind im Überfluss vorhanden und potenziell leicht verfügbar. Die Erzeugung nachhaltiger Energien ist jedoch in der Regel intermittierend, und diese Energien haben geographische Grenzen, die im Vergleich zu den derzeitigen großen Energieerzeugungsanlagen relativ begrenzt sind. Um die Unterbrechungen in der Produktion erneuerbarer Energien auszugleichen, werden kostengünstige elektrische Energiespeicher (EES) dringend notwendig. Unter diesen EES-Technologien sind Lithium-Ionen-Batterien eines der vielversprechendsten EES-Geräte hinsichtlich der Eigenschaften einer hohen gravimetrischen, volumetrischen Energiedichte und umweltfreundlich im Vergleich zu Blei-Säure-Batterien und Ni-Cd-Batterien. Weitere Vorteile von Lithium-Ionen-Batterien sind die Fähigkeit, hunderte Male wieder aufgeladen werden zu können, und die hohe Stabilität. Darüber hinaus hat der dramatisch wachsende Marktanteil von Hybrid- und Elektrofahrzeugen in Automobilen die Entwicklung von LIBs mit hoher Energie- und Leistungsdichte und hoher Massenbelastung motiviert. Es gibt jedoch noch einige Herausforderungen in den LIBs, die für die weitere Anwendung in den ESSs im Rastermaßstab erforderlich sind. Eine der bisherigen globalen Fragen sind die Gesamtkosten einschließlich der Kosten für Rohstoffe wie Lithium und Kobalt, Produktion, Bearbeitung und Transport usw. Darüber hinaus führt die steigende Energienachfrage dadurch zu einem Druck auf die Ressourcenversorgungsketten und damit zu einer Verteuerung der LIBs. Daher ist es dringend erforderlich, kurzfristig eine ergänzende und alternative EES-Technologie zu finden, um den wachsenden Energiebedarf zu decken. Vor dem Hintergrund der schnellen Entwicklung der LIBs-Technologie sowie der Etablierung der Grundlagen der Li-Chemie in den letzten 40 Jahren wurden wiederaufladbare Batteriesysteme, die das Na-Element verwenden, umfassend untersucht, um kostengünstigere und nachhaltigere ESSs zu entwickeln. Die Natriumressource ist auf der Erde im Überfluss vorhanden. Nach dem Periodensystem ist Natrium die möglichste Alternative, da es die ähnlichen chemischen und physikalischen Eigenschaften von Lithium hat. Folglich lassen sich die etablierten Grundlagen der LIBs in vernünftiger Weise mit denen der SIBs vergleichen. Darüber hinaus ist Natrium aus verschiedenen Quellen leicht erhältlich - aus Lebensmitteln, die von Natur aus Natrium enthalten, aus Lebensmitteln, die Salz und andere natriumhaltige Zutaten enthalten. Daher gewinnt das Studium der SIBs-Technologie und Natriumchemie sowohl in der wissenschaftlichen Forschung als auch in der Batterieindustrie zunehmend an Interesse und Aufmerksamkeit. Theoretisch gesehen ist jedoch die Energiedichte von SIBs bei Verwendung der gleichen Elektrodenmaterialien niedriger als die von LIBs, da Natrium mehr als dreimal schwerer als Li ist und das Standardelektrodenpotential von Na (-2,71 V) höher als Li (-3,04 V) ist. Daher werden SIBs nicht als idealer Kandidat für den Ersatz von LIBs im Bereich kleiner oder mittelgroßer tragbarer Geräte angesehen, sondern sie sind günstiger bei einer großen Netzunterstützung, bei der die Betriebskosten die primäre Wahl sind. Die negative Elektrode ist ein notwendiger und wichtiger Teil in einer einzelnen Zelle. In der Tat ist es zur Erfüllung des sich ausbreitenden Energiebedarfs erforderlich, negative Elektroden-Materialien mit hoher elektrochemischer Leistung in LIBs und SIBs zu untersuchen. Unter den verschiedenen Materialien für negative Elektroden gelten geschichtete Übergangsmetallsulfide (MS) als eine vielversprechende Klasse mit hoher theoretischer spezifischer Kapazität und Leistungskapazität aufgrund ihrer intrinsisch geschichteten Struktur, die der Diffusion von Li+ und Na+ förderlich ist. Allerdings leiden schichtförmige Übergangsmetallsulfide unter inhärent schlechter elektrischer Leitfähigkeit, Volumenänderungen, hoher Irreversibilität und träger Kinetik während des Li+ /Na+ -Speicherprozesses. Um diese Probleme anzugehen, werden in dieser Doktorarbeit zahlreiche Strategien zur Untersuchung von Hochleistungs-LIBs und SIBs für negative Elektrodenmaterialien angewandt. info:eu-repo/classification/ddc/540 ddc:540
59	Paul Milyukov and the Constitutional-Democratic Party Piotrow, Frederick J. January 1962 (has links) No description available. 900
60	Word by word, phrase by phrase, sentence by sentence : A corpus-based study of the N1 by N1 construction Boberg, Per January 2009 (has links) The present paper examines the N1 by N1 construction using corpus linguistic methodology.The distribution of types of the construction that occur more than once either unhyphenated or hyphenated in any subcorpus of the British National Corpus accessed through the BrighamYoung University interface is examined. Written and spoken language as well as variousgenres are compared. Hyphenation is also investigated. A collocation analysis of some typesof the construction is further carried out and it is concluded that the N1 by N1 construction canbe part of the on a N1 by N1 basis construction. Results from the quantitative analysis as wellas the qualitative discussion suggest that the N P N construction may be undergoinglexicalisation starting as an adverbial and moving to functioning as a premodifier. Thissuggestion is indicated through complementary diachronic searches in the Oxford EnglishDictionary. It is also indicated that the construction may follow a development pattern similarto that of N1 to N1. The notion of construction is discussed in relation to the N1 by N1 construction, and a hierarchical view of constructions is proposed as a solution to some of theproblems with the term. construction grammar constructions corpus linguistics hyphenation institutionalisation lexicalisation nominalisation N1 P N1 N P N premodifier General Language Studies and Linguistics Specific Languages Studier av enskilda språk

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