abstract

• In the present work, electrical measurements using in situ transmission electron microscopy (TEM) on pentagonal silver nanowires were performed. Electrical biasing was applied to individual nanowires with and without simultaneous in situ TEM mechanical deformation. The response of the ohmic resistance was measured in the I-V curves. A reduction in the break voltage and the resistance was measured, when the nanowires were subjected to a bending deformation. In situ electric measurements on both, with and without deformation, show a typical semiconductor behavior. Surface scattering of electrons in the nanowires and movement of dislocations act as the main causes of the electrical properties reported herein. In this way, the determination of the surface morphology was carried out by using off-axis electron holography followed by a phase reconstruction and structural modeling. The high Miller-index facets were determined to be the (533) stepped surface plane on all five longitudinal sides of the nanowires. Additionally, due to electrical saturation, a breakdown of the nanowires was observed during the in situ electrical measurements without mechanical deformation. [Figure not available: see fulltext.]. © 2019, Springer Nature B.V.

authors

• Alducin D.
• Fernando C.
• Ochoa E.
• Ponce A.
• Sanchez J.E.
• Santiago U.

publication date

• 2019-01-01

funding provided via

• U.S. Department of Defense, DOD: W911NF-18-1-0439  Grant

published in

• Journal of Nanoparticle Research  Journal

keywords

• Electric properties; Electromechanical measurements; High index planes; In situ microscopy; Metallic nanowires Deformation; Electric properties; Electric resistance measurement; Electron holography; High resolution transmission electron microscopy; In situ processing; Morphology; Ohmic contacts; Surface morphology; Surface scattering; Electrical measurement; Electromechanical measurements; High index planes; In situ transmission electron microscopy (TEM); In-situ microscopies; Metallic nanowires; Off-axis electron holography; Semiconductor behavior; Nanowires; nanowire; silver; Article; controlled study; crystallography; electric potential; excitation; field emission scanning electron microscopy; holography; image analysis; mechanics; mechanotransduction; off axis electron holography; piezoelectricity; priority journal; surface property; temperature; transmission electron microscopy

Digital Object Identifier (DOI)

• 10.1007/s11051-019-4577-3

start page

end page

volume

• 21

issue

• 7