Готові списки джерел за темами / Au based alloy nanowires

Добірка наукової літератури з теми "Au based alloy nanowires"

Автор: Grafiati
Опубліковано: 6 вересня 2023

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Статті в журналах з теми "Au based alloy nanowires"

1

Zhang, Xi, and Gang Xiang. "Magnetic Properties of Iron-Based Alloy Nanowires upon Heat Treatment." Advanced Materials Research 239-242 (May 2011): 197–201. http://dx.doi.org/10.4028/www.scientific.net/amr.239-242.197.

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Fe56Co44 alloy nanowires were fabricated by electrodeposition with aluminum oxide template. Transmission Electron Microscope photographs show the nanowires are separate and have no twist with each other. Mossbauer spectroscopy results show the values of the isomer shift, hyperfine splitting and linewidth all decrease with increasing annealing temperature. Vibrating sample magnetometer (VSM) results of the alloy nanowire show that the coercive fields increase with increasing heat treatment temperature when the direction of applied magnetic field perpendicular to the axis of nanowires.
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2

Chauvin, Adrien, Cyril Delacôte, Mohammed Boujtita, Benoit Angleraud, Junjun Ding, Chang-Hwan Choi, Pierre-Yves Tessier, and Abdel-Aziz El Mel. "Dealloying of gold–copper alloy nanowires: From hillocks to ring-shaped nanopores." Beilstein Journal of Nanotechnology 7 (September 29, 2016): 1361–67. http://dx.doi.org/10.3762/bjnano.7.127.

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We report on a novel fabrication approach of metal nanowires with complex surface. Taking advantage of nodular growth triggered by the presence of surface defects created intentionally on the substrate as well as the high tilt angle between the magnetron source axis and the normal to the substrate, metal nanowires containing hillocks emerging out of the surface can be created. The approach is demonstrated for several metals and alloys including gold, copper, silver, gold–copper and gold–silver. We demonstrate that applying an electrochemical dealloying process to the gold–copper alloy nanowire arrays allows for transforming the hillocks into ring-like shaped nanopores. The resulting porous gold nanowires exhibit a very high roughness and high specific surface making of them a promising candidate for the development of SERS-based sensors.
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3

Miao, Teng, and LinSheng Liu. "The method of growing InGaAs nanowires in a dual-temperature zone tube furnace." Journal of Physics: Conference Series 2553, no. 1 (August 1, 2023): 012025. http://dx.doi.org/10.1088/1742-6596/2553/1/012025.

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Abstract In this paper, InAs, GaAs, and InGaAs nanowires are grown by CVD using a dual-temperature zone tube furnace. The grown nanowires are characterized and analyzed. Based on the traditional chemical vapor deposition method, a small quartz tube is innovatively used to first deliver group III materials to fuse with gold particles, thus forming a higher quality eutectic alloy. It then pushes in InAs and GaAs source materials for normal growth. With growing InGaAs nanowires, the source temperature of InGaAs nanowire growth is controlled by using a dual-temperature zone to achieve the control of InGaAs nanowire components.
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4

Garcia-Gil, Adrià, Subhajit Biswas, and Justin D. Holmes. "A Review of Self-Seeded Germanium Nanowires: Synthesis, Growth Mechanisms and Potential Applications." Nanomaterials 11, no. 8 (August 4, 2021): 2002. http://dx.doi.org/10.3390/nano11082002.

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Ge nanowires are playing a big role in the development of new functional microelectronic modules, such as gate-all-around field-effect transistor devices, on-chip lasers and photodetectors. The widely used three-phase bottom-up growth method utilising a foreign catalyst metal or metalloid is by far the most popular for Ge nanowire growth. However, to fully utilise the potential of Ge nanowires, it is important to explore and understand alternative and functional growth paradigms such as self-seeded nanowire growth, where nanowire growth is usually directed by the in situ-formed catalysts of the growth material, i.e., Ge in this case. Additionally, it is important to understand how the self-seeded nanowires can benefit the device application of nanomaterials as the additional metal seeding can influence electron and phonon transport, and the electronic band structure in the nanomaterials. Here, we review recent advances in the growth and application of self-seeded Ge and Ge-based binary alloy (GeSn) nanowires. Different fabrication methods for growing self-seeded Ge nanowires are delineated and correlated with metal seeded growth. This review also highlights the requirement and advantage of self-seeded growth approach for Ge nanomaterials in the potential applications in energy storage and nanoelectronic devices.
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da Câmara Santa Clara Gomes, Tristan, Nicolas Marchal, Flavio Abreu Araujo, and Luc Piraux. "Flexible thermoelectric films based on interconnected magnetic nanowire networks." Journal of Physics D: Applied Physics 55, no. 22 (February 3, 2022): 223001. http://dx.doi.org/10.1088/1361-6463/ac4d47.

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Abstract Recently, there has been increasing interest in the fabrication of flexible thermoelectric devices capable of cooling or recovering waste heat from hot surfaces with complex geometries. This paper reviews recent developments on three-dimensional networks of interconnected ferromagnetic nanowires, which offer new perspectives for the fabrication of flexible thermoelectric modules. The nanowire arrays are fabricated by direct electrodeposition into the crossed nanopores of polymeric templates. This low-cost, easy and reliable method allows control over the geometry, composition and morphology of the nanowire array. Here we report measured thermoelectric characteristics as a function of temperature and magnetic field of nanowire networks formed from pure metals (Co, Fe, Ni), alloys (NiCo, NiFe and NiCr) and FM/Cu multilayers (with FM = Co, Co50Ni50 and Ni80Fe20). Homogeneous nanowire arrays have high thermoelectric power factors, almost as high as their bulk constituents, and allow for positive and negative Seebeck coefficient values. These high thermoelectric power factors are essentially maintained in multilayer nanowires which also exhibit high magnetic modulability of electrical resistivity and Seebeck coefficient. This has been exploited in newly designed flexible thermoelectric switches that allow switching from an ‘off’ state with zero thermoelectric output voltage to an ‘on’ state that can be easily measured by applying or removing a magnetic field. Overall, these results are a first step towards the development of flexible thermoelectric modules that use waste heat to power thermally activated sensors and logic devices.
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6

Beloshapka, V., O. Melnyk, V. Soolshenko, and S. Poltoratski. "Nickel Nanowires Based on Icosahedral Structure." METALLOFIZIKA I NOVEISHIE TEKHNOLOGII 41, no. 5 (September 4, 2019): 673–82. http://dx.doi.org/10.15407/mfint.41.05.0673.

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Singh, Raghvendra P., Ralf Blossey, and Fabrizio Cleri. "DNA i-motif provides steel-like tough ends to chromosomes." MRS Proceedings 1621 (2014): 135–41. http://dx.doi.org/10.1557/opl.2014.282.

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ABSTRACTWe studied the structure and mechanical properties of DNA i-motif nanowires by means of molecular dynamics computer simulations. We built up to 230 nm-long nanowires, based on a repeated TC5 sequence from NMR crystallographic data, fully relaxed and equilibrated in water. The unusual C●C+ stacked structure, formed by four ssDNA strands arranged in an intercalated tetramer, is here fully characterized both statically and dynamically. By applying stretching, compression and bending deformations with the steered molecular dynamics and umbrella sampling methods, we extract the apparent Young’s and bending moduli of the nanowire, as well as estimates for the tensile strength and persistence length. According to our results, i-motif nanowires share similarities with structural proteins, as far as their tensile stiffness, but are closer to nucleic acids and flexible proteins, as far as their bending rigidity is concerned. Curiously enough, their tensile strength makes such DNA fragments tough as mild steel or a nickel alloy. Besides their yet to be clarified biological significance, i-motif nanowires may qualify as interesting candidates for nanotechnology templates, due to such outstanding mechanical properties.
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Brun, Christophe, Corentin Carmignani, Cheikh Tidiane-Diagne, Simona Torrengo, Pierre-Henri Elchinger, Patrick Reynaud, Aurélie Thuaire, et al. "First Integration Steps of Cu-based DNA Nanowires for interconnections." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2016, DPC (January 1, 2016): 000650–79. http://dx.doi.org/10.4071/2016dpc-tp15.

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In the wide range of emergent nanotechnologies, DNA-based microelectronics has shown an important potential for components miniaturization and auto-assembling approaches applicable to future silicon-based electronic circuits [1]. In order to pursue the Moore's law, interconnections must be indeed addressed at the nanoscale, with a good control of their size, location and electrical & thermal performances. With its natural auto-assembling property, its 2-nm-double-helix diameter and its several metallization possibilities, DNA is a promising candidate to build bio-inspired electronic components [1]. DNA has been first metallized by Erez Braun in 1998 using a silver electroless method [2]. Since 1998, several groups have worked on DNA metallization using different chemistries with metals such as Pd, Pt, Au, Ag and Cu [3]. Most of these works have presented electrical and morphological characterizations of few metallic nanowires. However, in order to initiate DNA-based-nanowires integration on silicon technologies, we must start to implement nanowires on silicon at wafer scale. We have thus developed a platform based on silicon technologies providing morphological and electrical characterizations of copper nanowires built from DNA [4]. This platform will allow us to simultaneously characterize a large number of nanowires, returning a statistic of their electrical performance, and thus allowing the optimization of the copper nanowire metallization process. Two main approaches are proposed to fabricate and contact a large number of copper nanowires with metallic electrodes in order to study their electrical behavior. In both approaches, a linear 16-μm-length DNA phage is used. The first approach consists in aligning DNA wires on a hydrophobic silicon oxide surface by a method called DNA combing. On a second time, aligned DNA wires are all metallized by electroless process [4]. 5-nm-diameter copper nanowires have been so far achieved by this method and focus on improving the metallization process is currently at stake. Finally, Ti/Au electrodes are fabricated on the nanowires by a classical lift-off process in order to electrically connect them. The advantage of this approach is the very accurate nanowires alignment and their homogeneity over the surface. However, the low number of aligned nanowires per surface unit (10–20μm−2) and the high electrical resistance of each (>kohms) makes the electrical characterization quite complex. On the other side, the second approach consists in fabricating the Ti/Au electrodes first and then aligning or randomly depositing the copper nanowires at their surface. Same protocols are used to align and metallize the DNA nanowires for both approaches. The advantage of this second approach is a higher nanowire density deposited on the electrodes. However, a higher contact resistance and a lower control of nanowires alignment are obtained. Both approaches are currently explored and permit to explore a wide range of parameters for copper nanowires metallization process improvement.
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Dadvand, Nazila, and Georges J. Kipouros. "Electroless Fabrication of Cobalt Alloys Nanowires within Alumina Template." Journal of Nanomaterials 2007 (2007): 1–6. http://dx.doi.org/10.1155/2007/46919.

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A new method of nanowire fabrication based on electroless deposition process is described. The method is novel compared to the current electroless procedure used in making nanowires as it involves growing nanowires from the bottom up. The length of the nanowires was controlled at will simply by adjusting the deposition time. The nanowires were fabricated within the nanopores of an alumina template. It was accomplished by coating one side of the template by a thin layer of palladium in order to activate the electroless deposition within the nanopores from bottom up. However, prior to electroless deposition process, the template was pretreated with a suitable wetting agent in order to facilitate the penetration of the plating solution through the pores. As well, the electroless deposition process combined with oblique metal evaporation process within a prestructured silicon wafer was used in order to fabricate long nanowires along one side of the grooves within the wafer.
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10

Meduri, P., G. U. Sumanasekera, Z. Chen, and M. K. Sunkara. "Composition Controlled Synthesis and Raman Analysis of Ge-Rich SixGe1–x Nanowires." Journal of Nanoscience and Nanotechnology 8, no. 6 (June 1, 2008): 3153–57. http://dx.doi.org/10.1166/jnn.2008.194.

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Here, we report the synthesis of SixGe1–x nanowires with x values ranging from 0 to 0.5 using bulk nucleation and growth from larger Ga droplets. Room temperature Raman spectroscopy is shown to determine the composition of the as-synthesized SixGe1–x nanowires. Analysis of peak intensities observed for Ge (near 300 cm–1) and the Si-Ge alloy (near 400 cm–1) allowed accurate estimation of composition compared to that based on the absolute peak positions. The results showed that the fraction of Ge in the resulting SixGe1–x alloy nanowires is controlled by the vapor phase composition of Ge.
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Дисертації з теми "Au based alloy nanowires"

1

Jiao, Mingzhi. "Microfabricated Gas Sensors Based on Hydrothermally Grown 1-D ZnO Nanostructures." Doctoral thesis, Uppsala universitet, Mikrosystemteknik, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-320183.

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In this thesis, gas sensors based on on-chip hydrothermally grown 1-D zinc oxide (ZnO) nanostructures are presented, to improve the sensitivity, selectivity, and stability of the gas sensors. Metal-oxide-semiconductor (MOS) gas sensors are well-established tools for the monitoring of air quality indoors and outdoors. In recent years, the use of 1-D metal oxide nanostructures for sensing toxic gases, such as nitrogen dioxide, ammonia, and hydrogen, has gained significant attention. However, low-dimensional nanorod (NR) gas sensors can be enhanced further. Most works synthesize the NRs first and then transfer them onto electrodes to produce gas sensors, thereby resulting in large batch-to-batch difference. Therefore, in this thesis six studies on 1-D ZnO NR gas sensors were carried out. First, ultrathin secondary ZnO nanowires (NWs) were successfully grown on a silicon substrate. Second, an on-chip hydrothermally grown ZnO NR gas sensor was developed on a glass substrate. Its performance with regard to sensing nitrogen dioxide and three reductive gases, namely, ethanol, hydrogen, and ammonia, was tested. Third, three 1-D ZnO nanostructures, namely, ZnO NRs, dense ZnO NWs, and sparse ZnO NWs, were synthesized and tested toward nitrogen dioxide. Fourth, hydrothermally grown ZnO NRs, chemical vapor deposited ZnO NWs, and thermal deposited ZnO nanoparticles (NPs) were tested toward ethanol. Fifth, the effect of annealing on the sensitivity and stability of ZnO NR gas sensors was examined. Sixth, ZnO NRs were decorated with palladium oxide NPs and tested toward hydrogen at high temperature. The following conclusions can be drawn from the work in this thesis: 1) ZnO NWs can be obtained by using a precursor at low concentration, temperature of 90 °C, and long reaction time. 2) ZnO NR gas sensors have better selectivity to nitrogen dioxide compared with ethanol, ammonia, and hydrogen. 3) Sparse ZnO NWs are highly sensitive to nitrogen dioxide compared with dense ZnO NWs and ZnO NRs. 4) ZnO NPs have the highest sensitivity to ethanol compared with dense ZnO NWs and ZnO NRs. The sensitivity of the NPs is due to their small grain sizes and large surface areas. 5) ZnO NRs annealed at 600 °C have lower sensitivity toward nitrogen dioxide but higher long-term stability compared with those annealed at 400 °C. 6) When decorated with palladium oxide, both materials form alloy at a temperature higher than 350 °C and decrease the amount of ZnO, which is the sensing material toward hydrogen. Thus, controlling the amount of palladium oxide on ZnO NRs is necessary.
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2

Elbasiony, Amr Mohamed Wahba [Verfasser]. "Electrodeposition of tin and tin based alloys from ionic liquids : nanowires, thin films and macroporous structures / Amr Mohamed Wahba Elbasiony." Clausthal-Zellerfeld : Universitätsbibliothek Clausthal, 2015. http://d-nb.info/107822692X/34.

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3

Burr, Loïc [Verfasser], Christina [Akademischer Betreuer] Trautmann, Ralph [Akademischer Betreuer] Krupke, Robert [Akademischer Betreuer] Stark, and Friedemann [Akademischer Betreuer] Völklein. "Ion-track technology based synthesis and characterization of gold and gold alloys nanowires and nanocones / Loïc Burr. Betreuer: Christina Trautmann ; Ralph Krupke ; Robert Stark ; Friedemann Völklein." Darmstadt : Universitäts- und Landesbibliothek Darmstadt, 2016. http://d-nb.info/1112269622/34.

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4

Ji, Chunxin. "Synthesis, characterization and applications for gold-silver alloy and nanoporous gold nanowires." Available to US Hopkins community, 2002. http://wwwlib.umi.com/dissertations/dlnow/3080690.

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5

Sjöberg, Ted. "Plasticity modelling of nickel based super alloy Alloy 718." Licentiate thesis, Luleå tekniska universitet, Material- och solidmekanik, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-16884.

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The ever growing demand on reduced fuel consumption in modern aircrafts puts high requirements on manufacturers to reduce weight in all parts of the aircraft. With a total weight of up to one fifth of an aircraft’s total operating weight, ways to decrease the weight of the engine systems are continuously sought. The containment structure that surrounds the fan and turbine in larger commercial aircrafts is designed to prevent any debris to escape and damage any other systems such as fuel tanks or fuselage in the event that a blade should come off. This structure adds considerable bulk to the engine and because of the importance of the containment structure any redesign needs to be thoroughly tested. The high costs associated with containment testing means industry is looking into the feasibility of substituting parts of the expensive experimental testing with more economical numerical simulations. In this thesis modelling of the plastic behaviour of the nickel based super alloy, called Alloy 718, is investigated in an effort to correctly model the material in numerical simulations. This material is one of the most widely used materials in the parts of an aircraft engine subjected to elevated temperatures due to its retained strength and resistance to corrosion and creep. The material models chosen to model the plastic behaviour were the widely used Johnson-Cook and Zerilli-Armstrong models, because of their proven applicability for wide ranges of strain rates. The models were calibrated using data collected from tensile testing performed in a high speed VHS machine from Instron. Tensile tests were performed at quasi-static conditions and raised strain rates up to 1000 s-1. With an induction coil testing was also performed at temperatures up to 650 oC. Fitting the models to the data gave models valid from quasi-static to high rate conditions. In order to test the accuracy of the models they need to be validated. For this purpose a reverse impact experiment using free flying discs impacting a long slender rod was designed. This design enables the force history to be accurately monitored throughout the impact, while still achieving high strain rates. An investigation into producing additional data for use in validation was also performed. This investigation utilized a series of high speed photographs on which shape measurements were carried out in order to find parameters such as plate velocity and average strain without interfering with the experimental results
Godkänd; 2014; 20140115 (tedsjo); Nedanstående person kommer att hålla licentiatseminarium för avläggande av teknologie licentiatexamen. Namn: Ted Sjöberg Ämne: Hållfasthetslära/Solid Mechanics Uppsats: Plasticity Modelling of Nickel Based Super Alloy Alloy 718 Examinator: Professor Mats Oldenburg, Institutionen för teknikvetenskap och matematik, Luleå tekniska universitet Diskutant: Forskare Paul Åkerström, Swerea MEFOS Tid: Fredag den 28 februari 2014 kl 09.00 Plats: E246, Luleå tekniska
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6

Shi, Teng. "Confined States in GaAs-based Semiconducting Nanowires." University of Cincinnati / OhioLINK, 2016. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1460447182.

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7

Kockert, Maximilian Emil. "Thermoelectric transport properties of thin metallic films, nanowires and novel Bi-based core/shell nanowires." Doctoral thesis, Humboldt-Universität zu Berlin, 2021. http://dx.doi.org/10.18452/23001.

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Thermoelektrische Phänomene können in Nanomaterialien im Vergleich zum Volumenmaterial stark modifiziert werden. Die Bestimmung der elektrischen Leitfähigkeit, des absoluten Seebeck-Koeffizienten (S) und der Wärmeleitfähigkeit ist eine wesentliche Herausforderung für die Messtechnik in Hinblick auf Mikro- und Nanostrukturen aufgrund dessen, dass die Transporteigenschaften vom Volumenmaterial sich durch Oberflächen- und Einschränkungseffekte verändern können. Im Rahmen dieser Abschlussarbeit wird der Einfluss von Größeneffekten auf die thermoelektrischen Eigenschaften von dünnen Platinschichten untersucht und mit dem Volumenmaterial verglichen. Dafür wurde eine Messplattform als standardisierte Methode entwickelt, um S einer dünnen Schicht zu bestimmen. Strukturelle Eigenschaften wie Schichtdicke und Korngröße werden variiert. Grenz- und Oberflächenstreuung reduzieren S der dünnen Schichten im Vergleich zum Volumenmaterial. Außerdem wird eine Methode demonstriert um S von einzelnen metallischen Nanodrähten zu bestimmen. Für hochreine und einkristalline Silber-Nanodrähte wird der Einfluss von Nanostrukturierung auf die Temperaturabhängigkeit von S gezeigt. Ein Modell ermöglicht die eindeutige Zerlegung des temperaturabhängigen S von Platin und Silber in einen Thermodiffusions- und Phononen-Drag-Anteil. Des Weiteren werden die thermoelektrischen Transporteigenschaften von einzelnen auf Bismut-basierenden Kern/Hülle-Nanodrähten untersucht. Der Einfluss des Hüllenmaterials (Tellur oder Titandioxid) und der räumlichen Dimension des Nanodrahts auf die Transporteigenschaften wird diskutiert. Streuung an Oberflächen, Einkerbungen und Grenzflächen zwischen dem Kern und der Hülle reduzieren die elektrische und thermische Leitfähigkeit. Eine Druckverformung induziert durch die Hülle kann zu einer Bandöffnung bei Bismut führen, sodass S gesteigert werden kann. Das Kern/Hülle-System zeigt in eine Richtung, um die thermoelektrischen Eigenschaften von Bismut erfolgreich anzupassen.
Thermoelectric phenomena can be strongly modified in nanomaterials compared to the bulk. The determination of the electrical conductivity, the absolute Seebeck coefficient (S) and the thermal conductivity is a major challenge for metrology with respect to micro- and nanostructures because the transport properties of the bulk may change due to surface and confinement effects. Within the scope of this thesis, the influence of size effects on the thermoelectric properties of thin platinum films is investigated and compared to the bulk. For this reason, a measurement platform was developed as a standardized method to determine S of a thin film. Structural properties, like film thickness and grain size, are varied. Boundary and surface scattering reduce S of the thin films compared to the bulk. In addition, a method is demonstrated to determine S of individual metallic nanowires. For highly pure and single crystalline silver nanowires, the influence of nanopatterning on the temperature dependence of S is shown. A model allows the distinct decomposition of the temperature-dependent S of platinum and silver into a thermodiffusion and phonon drag contribution. Furthermore, the thermoelectric transport properties of individual bismuth-based core/shell nanowires are investigated. The influence of the shell material (tellurium or titanium dioxide) and spatial dimension of the nanowire on the transport properties are discussed. Scattering at surfaces, indentations and interfaces between the core and the shell reduces the electrical and the thermal conductivity. A compressive strain induced by the shell can lead to a band opening of bismuth increasing S. The core/shell system points towards a route to successfully tailor the thermoelectric properties of bismuth.
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8

Najafi, M., Barmachi N. Rastegar, S. Soltanian, Z. Alemipour, and A. Aftabi. "The Effect of Diameter and Thermal Treatment on Magnetic Properties of Co1-xZnx Alloy Nanowires." Thesis, Sumy State University, 2012. http://essuir.sumdu.edu.ua/handle/123456789/35350.

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Sansa, Perna Marc. "Characterization of nanomechanical resonators based on silicon nanowires." Doctoral thesis, Universitat Autònoma de Barcelona, 2013. http://hdl.handle.net/10803/125966.

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Els sensors de massa nanomecànics han atret un gran interès darrerament per la seva alta sensibilitat, que ve donada per les petites dimensions del ressonador que actua com a element sensor. Aquesta tesi tracta sobre la fabricació i caracterització de ressonadors nanomecànics per a aplicacions de sensat de massa. Aquest objectiu inclou diferents aspectes: 1) el desenvolupament d’una tecnologia de fabricació per a ressonadors nanomecànics basats en nanofils de silici, 2) la caracterització de la seva resposta freqüencial utilitzant mètodes elèctrics i 3) l’avaluació del seu rendiment com a sensors de massa. Durant aquest treball hem fabricat ressonadors nanomecànics basats en nanofils de silici doblement fixats, utilitzant dues estratègies de fabricació diferents: els nanofils crescuts amb mètodes bottom-up (“de baix a dalt”), i els definits amb mètodes de litografia top-down (“de dalt a baix”). Aprofitant les característiques d’ambdues tècniques, hem fabricat nanofils amb dimensions laterals de fins a 50 nanòmetres, i amb un alt nombre de dispositius per xip, aconseguint un alt grau de rendiment per a estructures d’aquestes dimensions. Hem aplicat esquemes avançats de detecció elèctrica basats en la mescla de senyals cap a freqüències baixes per tal de caracteritzar la resposta freqüencial dels ressonadors. Hem demostrat que el mètode de freqüència modulada (FM) proporciona la millor eficiència en la transducció de l’oscil·lació mecànica en una senyal elèctrica. Aquesta tècnica ha permès detectar múltiples modes de ressonància del ressonador, a freqüències de fins a 590 MHz. La detecció de modes de ressonància superiors és important per tal de solucionar una de les principals problemàtiques en el camp dels sensors de massa nanomecànics: desacoblar els efectes de la posició i la massa de la partícula dipositada. També hem combinat la informació obtinguda de la caracterització elèctrica amb simulacions d’elements finits per tal de quantificar l’estrès acumulat als nanofils durant la seva fabricació. Hem estudiat els sistemes de transducció electromecànica en ressonadors basats en nanofils de silici comparant l’eficiència de tres mètodes de detecció: el mètode FM ja esmentat i els mètodes de dos generadors, 1ω i de dos generadors, 2ω. D’aquesta manera hem demostrat que dos mecanismes de transducció diferents coexisteixen en els nanofils de silici bottom-up: el mecanisme lineal (en què la senyal transduïda és proporcional al moviment del ressonador) i el quadràtic (en què la senyal transduïda és proporcional al quadrat del moviment del ressonador). Per altra banda, en els ressonadors top-down només és present el mecanisme de transducció lineal. Aquest mecanisme lineal és el que permet la gran eficiència del mètode FM per a la caracterització de la resposta freqüencial de ressonadors basats en nanofils de silici. Per tal d’utilitzar els ressonadors nanomecànics com a sensors de massa, el seguiment de la freqüència de ressonància en temps real és indispensable. Hem dissenyat i implementat una configuració en llaç tancat basada en la caracterització FM i un algorisme de detecció de pendent. Aquest sistema permet el seguiment de canvis en la magnitud i freqüència de la resposta del ressonador, possibilitant la detecció de massa en temps real i la caracterització de l’estabilitat temporal del sistema. D’aquesta manera s’ha pogut avaluar l’eficiència del sistema per a aplicacions de sensat de massa. La sensibilitat en massa dels sensors de dimensions més reduïdes és de l’ordre de 6 Hz/zg (1 zg = 6·10-21 g), i les mesures d’estabilitat en freqüència en llaç tancat mostren una resolució en massa de 6 zg a temperatura ambient.
Nanomechanical mass sensors have attracted interest during the last years thanks to their unprecedented sensitivities, which arise from the small dimensions of the resonator which comprises the sensing element. This thesis deals with the fabrication and characterization of nanomechanical resonators for mass sensing applications. This objective comprises three different aspects: 1) the development of a fabrication technology of nanomechanical resonators based on silicon nanowires (SiNW), 2) the characterization of their frequency response by electrical methods and 3) the evaluation of their performance as mass sensors. During this work, we have fabricated nanomechanical resonators based on SiNW clamped-clamped beams, using two different approaches: bottom-up growth of SiNW and top-down definition by lithography methods. By exploiting the advantages of each technique, we have succeeded in fabricating nanowires of small lateral dimensions, in the order of 50 nanometers, and with high number of devices per chip, achieving a high throughput taking into account the dimensions of these structures. We have applied advanced electrical detection schemes based on frequency down-mixing techniques for the characterization of the frequency response of the devices. We have found that the frequency modulation (FM) detection method provides the best efficiency in transducing the mechanical oscillation into an electrical signal. This technique has enabled the detection of multiple resonance modes of the resonator at frequencies up to 590 MHz. The detection of high modes of resonance is important to address one of the issues in nanomechanical mass sensing, decoupling the effects of the position and mass of the deposited species. Moreover, by combining the information obtained from the experimental characterization of the frequency response with FEM simulations, we have quantified the stress accumulated in the SiNWs during the fabrication. We have studied the electromechanical transduction mechanisms in SiNW resonators by the comparative performance of three electrical detection methods: the aforementioned FM and two more detection techniques (namely the two-source, 1ω and the two-source, 2ω). We have proved that two different transduction mechanisms co-exist in bottom-up grown SiNWs: linear (in which the transduced signal is proportional to the motion of the resonator) and quadratic (in which the transduced signal is proportional to the square of the motion of the resonator). On the other hand, in the top-down nanowires only the linear transduction mechanism is present. It is this newly found linear transduction which enables the outstanding performance of the FM detection method when characterizing the frequency response of SiNW resonators. For the use of nanomechanical resonators in mass sensing applications, the real-time tracking of their resonance frequency is needed. We have designed and implemented a novel closed-loop configuration, based on the FM detection technique and a slope detection algorithm. It allows the monitoring of changes in the magnitude and the frequency of the response of the resonator, enabling not only the real time detection of mass, but also the characterization of the temporal stability of the system. In this way, its overall performance for mass sensing applications has been characterized. The mass sensitivity of the system for the smallest resonators stands in the range of 6 Hz/zg (1 zg = 6·10-21 g) and the frequency stability measurements in the closed loop configuration reveal a mass resolution of 6 zg at room temperature.
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10

Hedley, Joseph Henry. "DNA-based conducting polymer nanowires for biosensor applications." Thesis, University of Newcastle upon Tyne, 2014. http://hdl.handle.net/10443/2566.

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Novel DNA-based conductive polymer nanowires formed from thienyl-pyrrole derivatives have been synthesized and characterised by high-resolution ES-MS, ¹H and ¹³C NMR spectroscopy. Bulk DNA-templating of these materials is demonstrated by FTIR, while relative control over nanowire dimensions and deposition is shown by AFM. The electronic properties of these materials were investigated by Scanned Conductance Microscopy (SCM) and two-point I-V measurements. The resistance of the DNA/polymer nanowires, determined from variable temperature I-V measurements, was found to be in the range of 10¹²-10¹⁴Ω. Nanowire conductivity values were calculated to be in the range of 1.9x10-⁷-3.75x10-⁴S cm-¹ at 303K. FTIR data demonstrates the availability of the alkyne group in bulk DNAtemplated materials for subsequent nanowire functionalisation using ‘click’ chemistry. Efforts to couple 3-azido propanol and ssDNA probe DNA is also presented.
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Книги з теми "Au based alloy nanowires"

1

Tsourdalakis, Emmanuel. Phase transformations in TiA1 based alloy. Monterey, Calif: Naval Postgraduate School, 1991.

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2

Butt, M. Taqi Zahid. Study of gold-based alloy phase diagrams. Uxbridge: Brunel University, 1990.

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3

A, Nijs Johan F., ed. Advanced silicon and semiconducting silicon-alloy based materials and devices. Bristol: Institute of Physics Pub., 1994.

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4

Penton, Robert James Thomas. The fracture and fatigue of the Ti3Al based alloy super Alpha 2. Birmingham: University of Birmingham, 1994.

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5

W, Bransford J., and National Institute of Standards and Technology (U.S.), eds. Ignition characteristics of the nickel-based alloy UNS N07718 in pressurized oxygen. Boulder, Colo: U.S. Dept. of Commerce, National Institute of Standards and Technology, 1989.

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6

W, Bransford J., and National Institute of Standards and Technology (U.S.), eds. Ignition characteristics of the iron-based alloy UNS S66286 in pressurized oxygen. Boulder, Colo: U.S. Dept. of Commerce, National Bureau of Standards, 1988.

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7

Bransford, J. W. Ignition characteristics of the nickel-based alloy UNS N07001 in pressurized oxygen. Boulder, Colo: U.S. Dept. of Commerce, National Institute of Standards and Technology, 1990.

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8

Halford, Timothy Paul. Fatigue and fracture of a high strength, fully lamellar y-Tial based alloy. Birmingham: University of Birmingham, 2003.

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9

H, Titran Robert, and United States. National Aeronautics and Space Administration., eds. Tensile and stress-rupture behavior of hafnium carbide dispersed molybdenum and tungsten based alloy wires. [Washington, DC]: National Aeronautics and Space Administration, 1993.

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10

H, Titran Robert, and United States. National Aeronautics and Space Administration., eds. Tensile and stress-rupture behavior of hafnium carbide dispersed molybdenum and tungsten based alloy wires. [Washington, DC]: National Aeronautics and Space Administration, 1993.

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Частини книг з теми "Au based alloy nanowires"

1

Hong, S., J. Bielefeld, R. P. Andres, and R. Reifenberger. "Measuring the Electrical Resistance of Molecular Wires Using Cluster-Based Nanostructures." In Nanowires, 351–71. Dordrecht: Springer Netherlands, 1997. http://dx.doi.org/10.1007/978-94-015-8837-9_26.

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2

Lee, S. T., R. Q. Zhang, and Y. Lifshitz. "Silicon-Based Nanowires." In Nanowires and Nanobelts, 413–62. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-0-387-28745-4_13.

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3

Basarir, Fevzihan, Hamidreza Daghigh Shirazi, Zahra Madani, and Jaana Vapaavuori. "Silver Nanowire-based Capacitive Type Pressure and Strain Sensors for Human Motion Monitoring." In Nanowires, 251–67. Boca Raton: CRC Press, 2023. http://dx.doi.org/10.1201/9781003296621-16.

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4

Wang, Zhong Lin. "Nanodevice, Nanosensors and Nanocantilevers Based on Semiconducting Oxide Nanobelts." In Nanowires and Nanobelts, 3–19. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-0-387-28747-8_1.

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5

Kotlyar, Alexander. "Synthesis of DNA-Based Nanowires." In DNA Nanotechnology, 23–47. New York, NY: Springer New York, 2018. http://dx.doi.org/10.1007/978-1-4939-8582-1_3.

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6

Saulig-Wenger, K., D. Cornu, F. Chassagneux, S. Parola, P. Miele, and T. Epicier. "Synthesis of Si-Based Nanowires." In Ceramic Transactions Series, 129–37. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118406083.ch13.

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7

Kotlyar, Alexander. "Synthesis of Long DNA-Based Nanowires." In DNA Nanotechnology, 115–40. Totowa, NJ: Humana Press, 2011. http://dx.doi.org/10.1007/978-1-61779-142-0_9.

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8

Yang, Qing, Limin Tong, and Zhong Lin Wang. "Nanophotonic Devices Based on ZnO Nanowires." In Three-Dimensional Nanoarchitectures, 317–62. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-9822-4_12.

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9

Feuillet, Guy, and Pierre Ferret. "ZnO-Based Nanowire Heterostructures." In Wide Band Gap Semiconductor Nanowires 2, 61–84. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2014. http://dx.doi.org/10.1002/9781118984291.ch3.

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10

Zhou, Xiang, Jordan Paul Chesin, and Silvija Gradečak. "GaN Nanowire-Based Lasers." In Wide Band Gap Semiconductor Nanowires 2, 161–78. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2014. http://dx.doi.org/10.1002/9781118984291.ch7.

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Тези доповідей конференцій з теми "Au based alloy nanowires"

1

Dhote, Rakesh P., Roderick V. N. Melnik, and Jean W. Zu. "Dynamic Thermo-Mechanical Properties of Shape Memory Alloy Nanowires Upon Multi-Axial Loading." In ASME 2011 Conference on Smart Materials, Adaptive Structures and Intelligent Systems. ASMEDC, 2011. http://dx.doi.org/10.1115/smasis2011-5210.

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In this paper, we study the behavior of shape memory alloy (SMA) nanowires subjected to multi-axial loading. We use the model developed in our earlier work to study the microstructure and mechanical properties of finite length nanowires. The phase field model with the Ginzburg-Landau free energy is used to model the phase transformation based on the chosen order parameter. The governing equations of the thermo-mechanical model are solved simultaneously for different loading cases. We observe that nanowire behaves in a stiff manner to axial load with complete conversion of the unfavorable martensite to the favorable one. The bending load aids the phase transformation by redistributing the martensitic variants based on the local axial stress sign. The nanowire behavior to multi-axial (axial and bending together) is stiffer axially than the axial loading case. The understanding of the behavior of nanowire to multi-axial loading will be useful in developing better SMA-based MEMS and NEMS devices.
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2

Misra, Nipun, Yaoling Pan, and Costas P. Grigoropoulos. "Laser Thermal Processing of Nanowires." In ASME 2007 International Mechanical Engineering Congress and Exposition. ASMEDC, 2007. http://dx.doi.org/10.1115/imece2007-43722.

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Semiconductor nanowires offer an alternative bottom-up route for nanoscale electronics and photonics application. The possibility of combining nanowires with cheap flexible substrates in the form of nanowire thin-films or composite materials composed of nanowires has opened up a new paradigm for inorganic semiconductor based technologies on flexible substrates. Recently, thin film transistors have been fabricated on plastic substrates based on this technique. This paper discusses laser thermal processing of nanowires as an alternative to conventional thermal processing. Ultra-short pulsed lasers allow for localized energy deposition into nanowires and can therefore enable thermal processing of nanowires on sensitive substrates such as plastics. Laser-based annealing of ion-implanted silicon nanowires is investigated for application in high performance flexible electronics. The efficacy of laser processing is examined through studies of the effect of number of pulses and incident fluence levels on conductance of the nanowires. Finally, numerical predictions of the absorption in the nanowires are presented.
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3

Mazumder, Monalisa, and Theodorian Borca-Tasciuc. "Thermal Transport Measurements of Nanowire-Substrate Interfaces." In ASME 2008 Heat Transfer Summer Conference collocated with the Fluids Engineering, Energy Sustainability, and 3rd Energy Nanotechnology Conferences. ASMEDC, 2008. http://dx.doi.org/10.1115/ht2008-56328.

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An AFM based method for characterization of thermal transport properties of electrically conductive individual nanowires and nanowire-substrate interfaces has been developed. Nanostructures are located by topographic imaging in regular tapping mode and are then subsequently probed by an AFM cantilever tip, with a conductive coating thus establishing electrical contact at different positions on the nanowire followed by current-voltage data acquisition. This experimental approach can be implemented for a system with nanostructures in contact with the surface and, in the other case, suspended between electrodes. These configurations allow for characterization of both thermal conductivity and nano-interface thermal resistance. This work presents the technique along with the subsequent measurements of nano-interface thermal resistance of nanowire-substrate junction using the aforesaid technique.
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4

Koledov, Victor, Vladimir Shavrov, M. Fawzy, M. Blumenthal, Svetlana von Gratowski, Artemy Irzhak, Alexander Shelyakov, and Miroslava Topic. "Nano-nanomanipulation of CdSe nanowires using nano-tweezers based on shape memory alloys." In 2015 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO). IEEE, 2015. http://dx.doi.org/10.1109/3m-nano.2015.7425500.

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5

Florini, Nikoletta. "Core-shell nanowires based on III-V alloys: Strain distribution as a function of structure and composition." In European Microscopy Congress 2020. Royal Microscopical Society, 2021. http://dx.doi.org/10.22443/rms.emc2020.1230.

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6

Kaur, Daljit, Sujeet Chaudhary, and Dinesh K. Pandya. "Tuning of magnetic properties of NiFe alloy nanowires." In PROCEEDING OF INTERNATIONAL CONFERENCE ON RECENT TRENDS IN APPLIED PHYSICS AND MATERIAL SCIENCE: RAM 2013. AIP, 2013. http://dx.doi.org/10.1063/1.4810549.

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7

Gwak, Yunki, Vinay Narayanunni, Sang-Won Jee, Anastassios A. Mavrokefalos, Michael T. Pettes, Jung-Ho Lee, Li Shi, and Choongho Yu. "Thermal Conductivity of One-Dimensional Silicon-Germanium Alloy Nanowires." In ASME 2009 Heat Transfer Summer Conference collocated with the InterPACK09 and 3rd Energy Sustainability Conferences. ASMEDC, 2009. http://dx.doi.org/10.1115/ht2009-88563.

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Thermal properties of one dimensional nanostructures are of interest for thermoelectric energy conversion. Thermoelectric efficiency is related to non dimensional thermoelectric figure of merit, ZT = (S^2 σT)/k where S, σ, k are the Seebeck coefficient, electrical conductivity and thermal conductivity respectively. These physical properties are interdependent, and hence making ZT of a material high is very challenging work. However, when the size of nanostructure is comparable to the wavelength and mean free path of energy carriers, it is feasible to avoid such interdependence to enhance ZT energy conversion. [1–3]
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8

Kwon, S. Joon, Jae-Gwan Park, Young-Jin Choi, Kyoung-Jin Choi, and Dong-Wan Kim. "Structural and Optical Properties of Pseudobinary Wurtzite Alloy Nanowires." In 2008 MRS Fall Meetin. Materials Research Society, 2008. http://dx.doi.org/10.1557/proc-1144-ll19-16.

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9

Dhote, Rakesh P., Roderick V. N. Melnik, Jean W. Zu, and Linxiang Wang. "Microstructures of Constrained Shape Memory Alloy Nanowires Under Thermal Effects." In ASME 2010 Conference on Smart Materials, Adaptive Structures and Intelligent Systems. ASMEDC, 2010. http://dx.doi.org/10.1115/smasis2010-3814.

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In this paper, martensitic transformations in constrained Fe-Pd nanowires are studied using a mesoscopic model analyzed in detail numerically in our earlier papers. The dynamics of square-to-rectangular transformation is modeled by using the modified Ginzburg-Landau theory. The simulations are performed accounting for the thermal effects using the coupled equations of non-linear thermoelasticity. Up to date, these effects have typically been neglected in modeling microstructures at the scales of interest considered here. Nanowires of length 2000 nm and widths ranging from 200 nm to 50 nm are simulated to study the effect of size on the microstructure evolution. There exists a critical width below which the size effect is prominent. We present a series of numerical results demonstrating this phenomenon. We also have carried out the study of variations in values of bulk, shear, and Landau constants to understand the difference in evolved microstructure in the coupled and uncoupled physics.
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10

Sacconi, Fabio, Matthias Auf der Maur, Aldo Di Carlo, and Alessandro Pecchia. "Atomistic simulation of random alloy fluctuations in InGaN/GaN nanowires." In 2014 International Workshop on Computational Electronics (IWCE). IEEE, 2014. http://dx.doi.org/10.1109/iwce.2014.6865835.

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Звіти організацій з теми "Au based alloy nanowires"

1

Wang, Wenyong, Jinke Tang, Yuri Dahnovsky, Jon M. Pikal, and TeYu Chien. Quantum Dot Sensitized Solar Cells Based on Ternary Metal Oxide Nanowires. Office of Scientific and Technical Information (OSTI), November 2017. http://dx.doi.org/10.2172/1406887.

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2

Liu, C. T., P. F. Tortorelli, J. A. Horton, D. S. Easton, and L. Heatherly. Cr{sub 2}Nb-based alloy development. Office of Scientific and Technical Information (OSTI), June 1996. http://dx.doi.org/10.2172/450760.

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3

Liu, C. T., P. F. Tortorelli, and J. A. Horton. Cr{sub 2}Nb-based alloy development. Office of Scientific and Technical Information (OSTI), June 1995. http://dx.doi.org/10.2172/115404.

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4

A. B. Robinson, D. M. Perez, D. L. Porter, and G. L. C. Irradiation Performance of U-Mo Alloy Based ?Monol. Office of Scientific and Technical Information (OSTI), July 2013. http://dx.doi.org/10.2172/1097702.

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5

Nenoff, Tina Maria, Donald T. Berry, Ping Lu, Kevin Leung, Paula Polyak Provencio, Roland Rudolph Stumpf, Jian Yu Huang, and Zhenyuan Zhang. Room temperature synthesis of Ni-based alloy nanoparticles by radiolysis. Office of Scientific and Technical Information (OSTI), September 2009. http://dx.doi.org/10.2172/1001021.

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6

El Atwani, Osman, Enrique Martinez Saez, Nan Li, Jon Kevin Scott Baldwin, Stuart Andrew Maloy, Meimei Li, Duc Nguyen, Damian Sobieraj, Jan Wrobel, and Arun Devaraj. High irradiation resistance of nanocrystalline W-based high entropy alloy. Office of Scientific and Technical Information (OSTI), October 2019. http://dx.doi.org/10.2172/1573323.

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7

Kirka, Michael, Christopher Ledford, Patxi Fernandez-Zelaia, and Julio Ortega Rojas. RAPID ALLOY SELECTION AND ADDITIVE MANUFACTURING OF NICKEL BASED SUPERALLOYS. Office of Scientific and Technical Information (OSTI), December 2022. http://dx.doi.org/10.2172/1909096.

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8

Bransford, James W., Phillip A. Billiard, James A. Hurley, Kathleen M. McDermott, and Isaura Vazquez. Ignition characteristics of the iron-based alloy UNS S66286 in pressurized oxygen. Gaithersburg, MD: National Bureau of Standards, 1988. http://dx.doi.org/10.6028/nist.ir.88-3904.

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9

Bransford, James W., Phillip A. Billiard, James A. Hurley, Kathleen M. McDermott, and Isaura Vazquez. Ignition characteristics of the nickel-based alloy UNS N07718 in pressurized oxygen. Gaithersburg, MD: National Institute of Standards and Technology, 1989. http://dx.doi.org/10.6028/nist.ir.89-3911.

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10

Bransford, James W., and Phillip A. Billiard. Ignition characteristics of the nickel-based alloy UNS N07001 in pressurized oxygen. Gaithersburg, MD: National Institute of Standards and Technology, 1990. http://dx.doi.org/10.6028/nist.ir.3947.

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