2020
DOI: 10.1039/c9ra05451k
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Characterization of the defect structure of oxide nanoparticles with the use of deuterium probes

Abstract: The method of using deuterium probes was proposed for studying the defect structure of oxide nanoparticles.

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Cited by 6 publications
(4 citation statements)
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“…In addition, the concentration of oxygen defects near the surface is generally higher than in the bulk. [ 59 ] Therefore, the oxygen vacancy concentration on the surface of the LNCO55‐Ar sample is expected to be greater than 13%. As mentioned before, the LNCO55‐Air sample was inactive to AOR (Figure S4c , Supporting Information) and showed poor HER activity (Figure S14 , Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…In addition, the concentration of oxygen defects near the surface is generally higher than in the bulk. [ 59 ] Therefore, the oxygen vacancy concentration on the surface of the LNCO55‐Ar sample is expected to be greater than 13%. As mentioned before, the LNCO55‐Air sample was inactive to AOR (Figure S4c , Supporting Information) and showed poor HER activity (Figure S14 , Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…2 и 3, нужно иметь в виду, что короткие и даже более длительные отжиги порошков в дейтерии при 400 ºС не приводят к заметному изменению дефектной структуры YSZ10. Этот результат был получен в работе [10]. Это дает основания считать зависимости концентраций дейтерия C D от времени отжига на воздухе на рис.…”
Section: результаты и обсуждениеunclassified
“…Физико-химические и функциональные свойства нанопорошков в значительной мере определяются дефектной структурой наночастиц: концентрацией точечных дефектов, их типом и пространственным распределением [7][8][9]. Для их исследования применяется широкий набор методик, в том числе метод дейтериевых зондов (ДЗ) [10]. В его основе лежит тот факт, что при отжиге нанопорошков в дейтерии образуются кластеры, состоящие из атомов дейтерия и точечных дефектов.…”
Section: Introductionunclassified
“…-Possess same size scale as many biological molecules. [2,3,[12][13][14][15] Carbon nanotubes -Possess high thermal conductivity -Possess a remarkable electrical conductivity -Possess a remarkable mechanical property -Possess a large length-to-diameter ratio (aspect ratio) of higher than 1000 -The images of the actual space examination of nanotube have revealed a series of inter-stratum spacing -Single walled nanotube generally comprises of only 10 atoms near the circumference and the thickness of the tube is only one-atom thick [3,[16][17][18] Nanosheets -Exhibits high surface area that makes them advantageous for the fabrication of excellent reinforced polymeric composites -Their surfaces contain a large quantity of active oxygen-containing groups -Possess excellent mechanical and thermal conductivity properties -Possess excellent catalytic activities such as photo-/thermo-catalytic activity -Possess excellent thermal and electrical conductivity [5,6,[19][20][21] Nanofibers -Nanofibers are very small in size, which accords them outstanding physical and chemical properties -Possess huge surface area, high aspect ratio, and superior surface properties, which is responsible for their suitability for other technologies that need a smaller environment for chemical reaction to take place -Possess high pore volume and tight pore size that accords their suitability for an extensive range of filtration applications -Possess extreme adsorption capacity that has the capacity to improve many applications [4,[22][23][24] Meeting the demand and effectually making safe freshwater available is one of the utmost challenges globally. It forms a foremost menace to safe utilization of water, wellbeing, and trade and industry development [25].…”
Section: Nanomaterials Properties Referencesmentioning
confidence: 99%