Jyotsna Labh scite author profile

Jyotsna Labh

3Publications

4Citation Statements Received

34Citation Statements Given

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University of Allahabad

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Facile synthesis and electron transport properties of NiO nanostructures investigated by scanning tunneling microscopy

Mallick

Labh

Giri

et al. 2017

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Due to their unique chemical, thermal, electronic and photonic properties, low -dimensional transition metal oxides, especially NiO, have attracted great deal of attention for potential applications in a wide range of technologies, such as, sensors, electrochromic coatings and self-healing materials. However, their synthesis involves multi-step complex procedures that in addition to being expensive, further introduce impurities. Here we present a low cost facile approach to synthesize uniform size NiO nanoparticles (NPs) from hydrothermally grown Ni(OH)2. Detailed transmission electron microscopic analysis reveal the average size of NiO NPs to be around 29 nm. The dimension of NiO NP is also corroborated by the small area scanning tunneling microscope (STM) measurements. Further, we investigate electron transport characteristics of newly synthesized Ni(OH)2 and NiO nanoparticles on p-type Si substrate using scanning tunneling microscopy. The conductivity of Ni(OH)2 and NiO are determined to be 1.46x10-3 S/cm and 2.37x10-5 S/cm, respectively. The NiO NPs exhibit a lower voltage window (∼0.7 V) electron tunneling than the parent Ni(OH)2.

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Scanning tunneling spectroscopy of hydrothermally synthesized NiO nanoparticles

Mallick

Labh

Giri

et al. 2017

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Erratum: “Facile synthesis and electron transport properties of NiO nanostructures investigated by scanning tunneling microscopy” [AIP Advances 7, 085007 (2017)]

Mallick

Labh

Giri

et al. 2017

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Jyotsna Labh

Facile synthesis and electron transport properties of NiO nanostructures investigated by scanning tunneling microscopy

Scanning tunneling spectroscopy of hydrothermally synthesized NiO nanoparticles

Erratum: “Facile synthesis and electron transport properties of NiO nanostructures investigated by scanning tunneling microscopy” [AIP Advances 7, 085007 (2017)]

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