Enhanced electron field emission from CuO nanoplate arrays decorated with Au nanoparticles

Li, Fēi; Wu, Shumao; Zhang, Liangji; Li, Zhen

doi:10.1007/s00339-015-9321-y

Cited by 11 publications

(10 citation statements)

References 31 publications

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“…In order to enhance the eld emission properties, the researchers employed various approaches to obtain surface modied, 18,19 hybrid, 20,21 and post-processed 22,23 CuO nanostructures. Recently, noble metal nanoparticles, such as Ag 18 and Au, 24 are decorated on the 1D CuO nanostructures by wet chemistry and enhanced eld emissions have been obtained due to the increased conductivity and improved semiconductor characteristics. Carbon materials (graphene oxide layers 19 and carbon nanotube network lms 25 ) and metal oxides such as ZnO nanoparticles 26 are also chosen to coat on the CuO nanostructures to improve the eld emissions.…”

Section: Introductionmentioning

confidence: 99%

Electric field assisted growth and field emission properties of thermally oxidized CuO nanowires

et al. 2017

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Section: Introductionmentioning

confidence: 99%

Electric field assisted growth and field emission properties of thermally oxidized CuO nanowires

et al. 2017

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“…Especially, decoration of Au nanoparticles for 24 hr along the textural boundaries of ZnO nanowires yields a larger emission current density of 2.1 mA/cm 2 at a lower applied field of 1.92 V/μm. Moreover, emission current density (i. e., 2.1 mA/cm 2 ) achieved from Au@ZnO nanowires (≡ Au/ZnO/ITO) at lower applied field (i. e., 1.92 V/μm) is relatively higher than the values reported for Ag/GO/ZnO composites, CNT‐ZnO composites, ZnO nanowire/CNT heterojunction, pristine ZnO nanopillers, metal particle decorated ZnO nanorods, Au decorated ZnO nanowires/nanopillers,, and CuO nanoplates, and pristine and MoS 2 decorated β ‐TiO 2 ranorods ,. The E on of ZnO/ITO (i. e., E on = 1.56 V/μm) required to acquire current density of 10 μA/cm 2 is reduced considerably after the controlled decoration of various amounts of Au nanoparticles.…”

Section: Resultsmentioning

confidence: 65%

“…mentioned above ,,. The E on observed for Au@ZnO nanowires hetero‐architectures after decoration of Au nanoparticles for 24 hr is reasonably lower than that reported for Ag and Graphene oxide decorated ZnO nanowire array (i. e., 1.4 V/μm), ZnO nanowire/CNT heterojunction (i. e., 1.5 V/μm at current density of 1 μA/cm 2 ), nitrogen implanted ZnO nanowires (i. e., 2.4 V/μm at current density of 0.1 μA/cm 2 ), Ag and Pt decorated ZnO nanorods (i. e., 1.9 and 2.6 V/μm, respectively), and Au decorated CuO nanoplates (i. e., 6.7 V/μm) . The non‐uniform and limited distribution of Au nanoparticles over the ZnO nanowires restricted the E on to 2 V/μm (defined at 1 μA/cm 2 ) .…”

Section: Resultsmentioning

confidence: 99%

“…Despite the larger work function of 5.35 to 5.76 eV, Au nanoparticles found to perform better because of enhanced electron transfer and surface interactions . Recently, Li et al . reported electron FE from Au nanoparticle decorated CuO nanoplates, but the minimum E on was restricted to 6.7 V/μm due to the random distribution of irregular size and shape of nanoplates.…”

Section: Introductionmentioning

confidence: 99%

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Controlled Hetero‐Architectures of Au‐Nanoparticles‐Decorated ZnO Nanowires for Enhanced Field Electron Emission Displays

et al. 2018

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The spitzer shaped pointed ZnO nanowires of diameter 120 nm and length~5-6 mm synthesized via hydrothermal techniques were decorated with Au nanoparticles of diameter < 20 nm along their textural boundaries. The turn-on field (E on ) of 1.56 V/ mm required to draw current density of 10 mA/cm 2 from ZnO nanowires was reduced further to 0.96 V/mm after controlled decoration of Au nanoparticle, is significantly lower than pristine/doped ZnO nanostructures, Ag@ZnO, Au@ZnO, Au@-CuO, and MoS 2 @TiO 2 heterostructure based field emission (FE) devices. The orthodoxy test confirmed the feasibility of fieldenhancement factor (b FE ) of 4477 for Au/ZnO/ITO emitters. The enhanced FE behavior are attributed to pointed nanotips, individual dispersion of Au nanoparticles along the textural boundaries of ZnO nanowires, and enhanced energy well formation at their interface. Moreover, the density of state increases enormously due to the hetero-structured interface of Au@ZnO and a significant amount of electrons from both Au and ZnO contribute for enhanced emission current density (2.1 mA/cm 2 @ 1.92 V/mm), and greatly stable electron emission. Our experiments suggest that the tunable hetero-architectures of Au nanoparticles@ZnO nanowires hold the promises for applications in display screens and intense electron source.

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“…14 Li et al demonstrated that decorated Au nanoparticles enhanced the¯eld emission performance of CuO nanoplate arrays. 15 Juan et al found that hydrogen annealing could improve thē eld emission properties of CuO nanowires. 16 For the in°uence of light illumination, Chen et al observed visible light illumination could enhance¯eld emission performance of CuO nanobelt arrays.…”

Section: Introductionmentioning

confidence: 99%

Enhanced Field Emission from UV-Illuminated CuO Nanowires Fabricated by Thermal Oxidation of Cu Film

Zhao

Wang

Chen

et al. 2016

NANO

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Cupric Oxide (CuO) nanowires have been successfully synthesized by direct thermal oxidation of Cu¯lm in air. The morphologies and structures of the synthesized materials are investigated by scanning electron microscopy (SEM) and X-ray di®raction (XRD). The results imply that CuO nanowires with well vertical arrays present very narrow sharp peaks, indicating the nanowires are highly crystalline. The e®ect of ultraviolet (UV) illumination on the¯eld emission characteristics of the CuO nanowires is investigated. The turn-on electric¯eld of UV-illuminated CuO nanowires decreases and the¯eld enhancement factor enhances.

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Enhanced electron field emission from CuO nanoplate arrays decorated with Au nanoparticles

Cited by 11 publications

References 31 publications

Electric field assisted growth and field emission properties of thermally oxidized CuO nanowires

Electric field assisted growth and field emission properties of thermally oxidized CuO nanowires

Controlled Hetero‐Architectures of Au‐Nanoparticles‐Decorated ZnO Nanowires for Enhanced Field Electron Emission Displays

Enhanced Field Emission from UV-Illuminated CuO Nanowires Fabricated by Thermal Oxidation of Cu Film

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