Buckling and mechanical instability of ZnO nanorods grown on different substrates under uniaxial compression

Riaz, M.; Fulati, A.; Zhao, Qing; Nur, Omer; Willander, Magnus; Klason, Peter

doi:10.1088/0957-4484/19/41/415708

Cited by 41 publications

(23 citation statements)

References 26 publications

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“…Especially in the case of piezoelectric nanodevices, their mechanical characterization and most notably the study of the buckling behavior of a given nanostructure are extremely important. As of today, buckling studies have focused mainly on carbon nanotubes and on ZnO nanorods/nanowires [566,[601][602][603][604][605][606][607]. Most notably wurtzite ZnO, due to its noncentrosymmetric nature, has been used as piezoelectric material, for example in piezoelectric thin films for highfrequency bulk acoustic wave and surface acoustic wave transducers and resonators.…”

Section: Bucklingmentioning

confidence: 99%

Physical properties of elongated inorganic nanoparticles

et al. 2011

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Section: Bucklingmentioning

confidence: 99%

Physical properties of elongated inorganic nanoparticles

et al. 2011

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“…[ 2 ] This makes ZnO a technologically important material in many practical applications that requires a large electromechanical coupling. The growth methods [3][4][5] and electrical and mechanical properties of ZnO nanostructures [6][7][8] have been extensively studied and by now they are well known to the research community. [9][10][11] On the other hand, ZnO nanowires have demonstrated sucess in various applications e.g.…”

Section: Introductionmentioning

confidence: 99%

Study of the Piezoelectric Power Generation of ZnO Nanowire Arrays Grown by Different Methods

Riaz

Song

Nur

et al. 2010

Adv Funct Materials

115

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The piezoelectric power generation from ZnO nanowire arrays grown on different substrates using different methods is investigated. ZnO nanowires were grown on n‐SiC and n‐Si substrates using both the high‐temperature vapor liquid solid (VLS) and the low‐temperature aqueous chemical growth (ACG) methods. A conductive atomic force microscope (AFM) is used in contact mode to deflect the ZnO nanowire arrays. No substrate effect was observed but the growth method, crystal quality, density, length, and diameter (aspect ratio) of the nanowires are found to affect the piezoelectric behavior. During the AFM scanning in contact mode without biasing voltage, the ZnO nanowire arrays grown by the VLS method produced higher and larger output voltage signal of 35 mV compared to those grown by the ACG method, which produce smaller output voltage signal of only 5 mV. The finite element (FE) method was used to investigate the output voltage for different aspect ratio of the ZnO nanowires. From the FE results it was found that the output voltage increases as the aspect ratio increases and starts to decreases above an aspect ratio of 80 for ZnO nanowires.

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“…For the ZnO NRs coated substrates the penetration of the tip was about ~650 nm. The comparison of load-displacement curves for both NRs samples show that the oxygen plasma treated samples are stiffer than the as grown ones, because the tip needs to apply more force after 300 nm penetrations to buckle/bend [28][29][30] the plasma-treated nanorods.…”

Section: Methodsmentioning

confidence: 98%

The effect of oxygen-plasma treatment on the mechanical and piezoelectrical properties of ZnO nanorods

Hussain

Khan

Nur

et al. 2014

Chemical Physics Letters

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The effect of oxygen-plasma treatment on the mechanical andpiezoelectrical properties of ZnO nanorods, 2014, Chemical Physics Letters, (608) Abstract:We have studied the effect of oxygen plasma treatment on piezoelectric response and on the mechanical stability of ZnO nanorods synthesized on FTO by using ACG method. XRD and SEM techniques have shown highly dense and uniformly distributed nanorods. The piezoelectric properties and mechanical stability of as-grown and oxygen plasma treated samples were investigated by using nanoindentation technique. The comparison of loaddisplacement curves showed that the oxygen plasma treated samples are much stiffer and show higher generated piezo-voltage. This study demonstrates that the oxygen-plasma treatment is a good option to fabricate reliable and efficient nanodevices for enhanced generation of piezoelectricity.

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Buckling and mechanical instability of ZnO nanorods grown on different substrates under uniaxial compression

Cited by 41 publications

References 26 publications

Physical properties of elongated inorganic nanoparticles

Physical properties of elongated inorganic nanoparticles

Study of the Piezoelectric Power Generation of ZnO Nanowire Arrays Grown by Different Methods

The effect of oxygen-plasma treatment on the mechanical and piezoelectrical properties of ZnO nanorods

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