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Materials --- Ion bombardment --- Ion beam lithography

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Integrated circuits --- Ion beam lithography --- Photolithography --- X-ray lithography --- Very large scale integration --- Design and construction --- Congresses --- Congresses --- Congresses --- Congresses

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Fysica --- Ion beam lithography --- Lithografie door elektronenbundel --- Lithografie door ionenbundel --- Lithografie door röntgenstralen --- Lithographie par faisceau d'ions --- Lithographie par faisceau d'électrons --- Lithographie par rayons X --- Lithography [Electron beam ] --- Natuurkunde --- Physics --- Physique --- X-ray lithography --- Lithography, Electron beam. --- X-ray lithography. --- Ion beam lithography. --- Physics. --- 621.3.049.77 --- Lithography, Electron beam --- 538.97 --- Lithography --- X-rays --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Electron beam lithography --- Electron beams --- Microelectronics --- Photolithography --- Ion bombardment --- Microelectronics. Integrated circuits --- Special geometry and interaction with particles and radiation --- Industrial applications --- 538.97 Special geometry and interaction with particles and radiation --- 621.3.049.77 Microelectronics. Integrated circuits

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Throughout the history of materials science and physics, few topics have captured as much interest as the phenomenon of superconductivity (SPC), discovered in 1911. Perhaps this is because of the intriguing interpretation of the phenomenon, which remains controversial, or for the secret hope of being able to synthesize a material with a critical superconductive transition temperature (TC) high enough to revolutionize the sector of energy generation and transport. As a matter of fact, the search for new superconductor materials has motivated an army of scientists, in particular, after the discovery of high-TC superconductor cuprates (HTS) in the mid-80s. Besides the unremitting interest in HTS, new materials, such as intermetallic borides, iron–nickel-based superconductors, heavy fermion, and organic and superhydride systems, are still delivering outstanding achievements to the scientific community, among which includes thousands of papers and a handful of Nobel prize winners). This Special Issue “Synthesis and Characterization of New Superconductor Materials” is a collection of scientific contributions providing new insights and advances in this fascinating field, addressing issues ranging from the fundamental research (theory and correlation between critical temperature, TC, and structural properties) to the development of innovative solutions for practical applications of superconductivity: Synthesis of new superconducting materials Magnetic and/or electric characterization of the TC transition Role of crystal symmetry and chemical substitutions on TC TC dependence on external stimuli and/or non-ambient conditions Theoretical modeling

Research & information: general --- Dirac electron --- Landau level --- interlayer magnetoresistance --- organic conductor --- α-(BEDT-TTF)2I3 --- Er123 --- melt temperature --- superconducting solder --- superconducting joint --- FeSe --- superconductivity --- high pressure --- chemical intercalation --- interfacial coupling --- AC susceptibility --- BaZrO3 --- co-precipitation --- solid-state --- YBa2Cu3O7−δ --- Weyl semimetal --- focused ion beam --- high-temperature superconductors --- bismuth-based cuprates --- Bi-2212 --- n/a

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The book represents a collection of papers from Special Issue “Formation of Advanced Nanomaterials by Gas-Phase Aggregation” published in journal Applied Nano. It contains review and original articles covering a range of topics on the growth of clusters/nanoparticles using gas-phase aggregation approaches, the application of cluster beams for the formation of nanomaterials with advanced properties and specific nanostructures as well as providing new fundamental insights on nanoscale properties of materials.

silver nanoparticles --- nano-PALDI MS --- SALDI MS --- laser desorption --- gas-phase synthesis of nanoparticles --- cluster sources --- nanomaterials prepared by gas aggregation --- polymer/metal nanocomposites --- electroactive actuators --- soft robotics --- biosensors --- chemical sensors --- gas phase --- gas sensors --- nanoparticles --- sputtering --- strain sensors --- core@shell nanoparticles --- CoCr nanoparticles --- cluster ion beam --- nanostructures --- potassium titanyl phosphate --- atomic force microscopy --- power spectral density function --- n/a