Metal Oxide-Based Thin Film Structures 2018
DOI: 10.1016/b978-0-12-811166-6.00017-0
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Nanoionics and interfaces for energy and information technologies

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Cited by 6 publications
(4 citation statements)
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References 145 publications
(275 reference statements)
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“…[129] Space-charge situations have been intensively investigated in a number of ionic and mixed ionicelectronic conductors (extensive reviews can be found in ref. [65,130,131]). In most cases of technological relevance, such as perovskites and fluorite-based materials, [128,[132][133][134] grain boundary cores have been found to be positively charged, i.e.…”
Section: Space Chargementioning
confidence: 99%
See 1 more Smart Citation
“…[129] Space-charge situations have been intensively investigated in a number of ionic and mixed ionicelectronic conductors (extensive reviews can be found in ref. [65,130,131]). In most cases of technological relevance, such as perovskites and fluorite-based materials, [128,[132][133][134] grain boundary cores have been found to be positively charged, i.e.…”
Section: Space Chargementioning
confidence: 99%
“…Types of interfaces in ceramic oxide films: Homointerfaces, i.e. grain boundary-dominated materials (a,d)[65] and heterointerfaces, viz. multilayers (b,e)[66] and vertically aligned nanocomposite structures (VANs) (c,f) [67].…”
mentioning
confidence: 99%
“…Mushtaq et al reported a mixed electron ion-conducting semiconductor-ionic SrFe 0.75 Ti 0.25 O 3‑δ -SDC electrolyte in the fuel cell with high ionic conductivity (>0.1 S cm –1 ), which resulted in a remarkable power output of 0.92 W cm –2 at a low operational temperature of 520 °C, and many others are reported . Moreover, Yang et al have reported one order of magnitude enhancement in the ionic conduction via formation of the heterostructure of vertical nanocolumns using Sm 0.25 Ce 0.75 O 2‑δ (SDC) and SrTiO 3‑δ as compared to individual ionic conductor SDC. , Hence, the construction of an artificial heterostructure based on currently developed materials amalgamated with present developments created new pathways and extended the number of semiconductor heterojunctions and superlattices to assist the transport of oxide ions . Therefore, to pursue this concept, a p–n heterojunction in bulk was studied based on nano-redox at particles and nano-fuel cell reactions.…”
Section: Introductionmentioning
confidence: 99%
“…24,25 Hence, the construction of an artificial heterostructure based on currently developed materials amalgamated with present developments created new pathways and extended the number of semiconductor heterojunctions and superlattices to assist the transport of oxide ions. 26 Therefore, to pursue this concept, a p−n heterojunction in bulk was studied based on nano-redox at particles and nano-fuel cell reactions. The p−n heterojunction plays a crucial role in the separation of the electron−hole pairs via the formation of the internal electric field.…”
mentioning
confidence: 99%