Synthesis of lanthanum nickelate perovskite nanotubes by using a template-inorganic precursor

Tagliazucchi, Mario; Sánchez, R.D.; Troiani, Horacio Esteban; Calvo, Ernesto J.

doi:10.1016/j.ssc.2005.11.022

Cited by 18 publications

(6 citation statements)

References 33 publications

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“…Similarly, hollow tubular nanostructures of LaNiO 3 was also prepared by using an inorganic template precursor. 70 SEM image shows that the obtained nanotubes have a diameter of 200 nm in good agreement with the template pore size. Bright-and darkfield TEM images (Fig.…”

Section: Structural Characterization Of Perovskite Oxide Nanotubessupporting

confidence: 70%

Perovskite oxide nanotubes: synthesis, structural characterization, properties and applications

2010

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Section: Structural Characterization Of Perovskite Oxide Nanotubessupporting

confidence: 70%

Perovskite oxide nanotubes: synthesis, structural characterization, properties and applications

2010

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“…In general, this process involves etching techniques that can leave exposed surfaces, which then react with ambient surroundings, lithography process with several organic solvents, as well as other processes throughout the device development [1]. In fact, few works describe the physical properties of nanostructured NNO or other RNiO 3 compounds [32][33][34]. One study explored the transport properties of nanowires of NNO grown from a top-down process in an epitaxial thin film with different thicknesses on a LaNiO 3 substrate.…”

Section: Introductionmentioning

confidence: 99%

“…These processing problems can be solved with the advancement in the nanoscale materials growth, which has been used to produce nanostructured perovskite oxides. [32,[35][36][37][38][39][40][41]. Such nanostructured oxides can be used as a freestanding building block not only to the technological applications cited above, but also in new optoelectronic devices (e.g., pressure sensors and new designed photovoltaic devices) [8,9,42].…”

Section: Introductionmentioning

confidence: 99%

Low oxygen pressure synthesis of NdNiO_3-δ nanowires by electrospinning

et al. 2020

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Synthesis of RNiO 3 (R=rare earth) nanowires can be interesting as building blocks with potential applications in optoelectronic devices. Here, we describe the synthesis and characterization of NdNiO 3-δ (NNO) nanowires produced by electrospinning technique via polymeric precursor solution at relatively low temperature and oxygen pressure. These NNO nanowires were characterized by x-ray diffraction (XRD), x-ray photodetection spectroscopy (XPS), Field Emission Scanning Electron Microscopy (Fe-SEM), Magnetization (M(T)) and electrical resistance (R(T)) measurements. SEM images revealed a granular nanowire microstructure of NNO nanostructures, with a distribution of nanowire diameters ranging from 50 to 150 nm. The NNO nanowires also exhibit granular characteristics with an average grain diameter of 40 nm. The x-ray diffraction patterns of the NNO nanowires indicated that these samples exhibited a high degree of crystallinity and their Bragg reflections can be indexed to an orthorhombic-distorted (Pbnm symmetry) perovskite structure. The crystalline structure seems to be slightly texturized in some Bragg directions and with a slightly strained crystallite. M(T) and R(T) measurement as a function of temperature curves show that these NNO samples present a metal-insulator (MI) transition close to T MI ∼198 K, which is usually observed in NNO thin films and bulk samples. The nanostructured shape and these experimental observations can be promising in designing new electronic devices using this strongly correlated oxide.

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“…Recently various mixed rhombohedral metal oxide nanomaterials have been reported [9] with improved catalytic activity and possibility of use in fuel cells [10]. Various methods like sol-gel [11], co-precipitation [12], liquid mix technique [13], decomposition of mixed oxalate [14], nitrates or arbonates, [15] metalo organic metalo-inorganic precursors are used to prepare LaNiO 3 .…”

Section: Introductionmentioning

confidence: 99%

Antibacterial activity of LaNiO3 prepared by sonicated sol-gel method using combination fuel

Jadhav

Khetre

2019

Int Nano Lett

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Sonicated sol-gel method was used to prepare LaNiO 3 from lanthanum nitrate hexahydrate La(NO 3) 3 .6H 2 O(LN), nickel nitrate Ni(NO 3) 3 .6H 2 O(NN), glycine and urea. Nanocrystalline LaNiO 3 powder was formed after heating at 175 °C in 5 min. Particle size of LaNiO 3 nanopowder was determined by Debay Scherrer's equation and was found 48 nm. Prepared nanocatalyst characterized with the help of XRD, TGA, SEM, IR, BET surface area, EDX. Surface area of LaNiO 3 was 9.22 m 2 /g. We have reported first time good antibacterial activity of LaNiO 3 for Staphylococcus aureus. Zone of inhibition for LaNiO 3 was 13 mm studied with the help of agar cup method.

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Synthesis of lanthanum nickelate perovskite nanotubes by using a template-inorganic precursor

Cited by 18 publications

References 33 publications

Perovskite oxide nanotubes: synthesis, structural characterization, properties and applications

Perovskite oxide nanotubes: synthesis, structural characterization, properties and applications

Low oxygen pressure synthesis of NdNiO_3-δ nanowires by electrospinning

Antibacterial activity of LaNiO3 prepared by sonicated sol-gel method using combination fuel

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Synthesis of lanthanum nickelate perovskite nanotubes by using a template-inorganic precursor

Cited by 18 publications

References 33 publications

Perovskite oxide nanotubes: synthesis, structural characterization, properties and applications

Perovskite oxide nanotubes: synthesis, structural characterization, properties and applications

Low oxygen pressure synthesis of NdNiO3-δ nanowires by electrospinning

Antibacterial activity of LaNiO3 prepared by sonicated sol-gel method using combination fuel

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Low oxygen pressure synthesis of NdNiO_3-δ nanowires by electrospinning