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Design and Control of Highly Conductive Single-Molecule Junctions - A Focus on the Metal-Molecule Interface (Paperback, Softcover reprint of the original 1st ed. 2017) Loot Price: R2,789
Discovery Miles 27 890
Design and Control of Highly Conductive Single-Molecule Junctions - A Focus on the Metal-Molecule Interface (Paperback,...

Design and Control of Highly Conductive Single-Molecule Junctions - A Focus on the Metal-Molecule Interface (Paperback, Softcover reprint of the original 1st ed. 2017)

Satoshi Kaneko

Series: Springer Theses

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Loot Price R2,789 Discovery Miles 27 890 | Repayment Terms: R261 pm x 12*

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This thesis describes improvements to and control of the electrical conductance in single-molecule junctions (SMJs), which have potential applications in molecular electronics, with a focus on the bonding between the metal and molecule. In order to improve the electrical conductance, the orbital of the molecule is directly bonded to the metal orbital, because anchoring groups, which were typically used in other studies to bind molecule with metal electrodes, became resistive spacers. Using this direct -binding, the author has successfully demonstrated highly conductive SMJs involving benzene, endohedral metallofullerene Ce@C82, and nitrogen. Subsequently, the author investigated control of the electrical conductance of SMJs using pyrazine. The nitrogen atom in the -conjugated system of pyrazine was expected to function as an anchoring point, and two bonding states were expected. One originates primarily from the orbital, while the other originates primarily from an n state of the nitrogen. Measurements of conductance and dI/dV spectra coupled with theoretical calculations revealed that the pyrazine SMJ has bistable conductance states, in which the pyrazine axis is either tilted or parallel with respect to the junction axis. The bistable states were switched by changing the gap size between the metal electrodes using an external force. Notably, it is difficult to change the electrical properties of bulk-state materials using mechanical force. The findings reveal that the electron transport properties of a SMJ can be controlled by designing a proper metal-molecule interface, which has considerable potential for molecular electronics. Moreover, this thesis will serve as a guideline for every step of SMJ research: design, fabrication, evaluation, and control.

General

Imprint: Springer Verlag, Singapore
Country of origin: Singapore
Series: Springer Theses
Release date: December 2018
First published: 2017
Authors: Satoshi Kaneko
Dimensions: 235 x 155mm (L x W)
Format: Paperback
Pages: 84
Edition: Softcover reprint of the original 1st ed. 2017
ISBN-13: 978-981-13-5129-7
Categories: Books > Professional & Technical > Technology: general issues > Nanotechnology
Books > Science & Mathematics > Chemistry > Physical chemistry > General
Books > Professional & Technical > Electronics & communications engineering > Electronics engineering > General
LSN: 981-13-5129-5
Barcode: 9789811351297

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