New formations of carbon nanotube junctions

Zsoldos, Ibolya; Kakuk, Gy.

doi:10.1088/0965-0393/15/7/003

Cited by 9 publications

(1 citation statement)

References 33 publications

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“…[144,145] The multiterminal junctions of CNTs were first predicted in 1991 by Macky and Terrones. [146] The next year, shortly after the discovery of CNTs, Scuseria and Chernozatonskii proposed the structural models for symmetric Y-shaped junctions of CNTs based on theoretical calculations.…”

Section: Multiterminal Intramolecular Junctionsmentioning

confidence: 99%

The Intramolecular Junctions of Carbon Nanotubes

2008

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For the miniaturization of microelectronics, carbon nanotubes (CNTs) are regarded as ideal candidates for the next generation of nanoelectronics because of their excellent properties. To realize CNT‐based electronics, intramolecular junctions are required components, which can not only connect different CNTs for integration, but can also act as functional building blocks in the circuit, such as rectifiers, field‐effect transistors, switches, amplifiers, photoelectrical devices, etc. Therefore, intense attention has been focused on this topic and many advances have been achieved, especially in recent years. On the other hand, some challenges also exist. To provide researchers with a comprehensive overview of this field, this review discusses the synthesis, properties, and applications of intramolecular junctions of CNTs in detail. Among them, the applications of CNT integration are discussed specially. Furthermore, a brief summary and an outlook of future work are provided.

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Section: Multiterminal Intramolecular Junctionsmentioning

confidence: 99%

The Intramolecular Junctions of Carbon Nanotubes

2008

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Computing and comparative analysis of topological invariants of Y‐junction carbon nanotubes

Nadeem

Shabbir

2021

Int J of Quantum Chemistry

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Recent findings of diverse forms of carbon nanostructures have encouraged research on their applications in several areas. They are used as a structural material in electronic and optical devices, involving transistors, photodetectors, plastic, biological sensors, pharmaceutical and medicine, and drug delivery systems. Since the discovery of Y-shaped carbon nanotubes (CNTs) junctions, they have drawn interest for future electron devices, for example, three-terminal transistors, amplifiers, and switches. A topological index is a number that is used to study the physicochemical properties of chemical structures. In this paper, we are providing topological properties of CNT Y-junctions. The results obtained for different types of Y-junction graphs appeared with comparisons. According to the best of our knowledge and literature, this is the first report about topological indices on this class of CNT junctions.

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Hypergraphene from Armchair Nanotube Y Junctions

Nagy

2013

Diamond and Related Nanostructures

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New formations of carbon nanotube junctions

Abstract: A method is demonstrated for constructing models on which we show that carbon nanotubes with optional type and diameter can be connected to different three-dimensional surfaces. Basic examples (zigzag and armchair-type junctions and holes) are studied in this paper.

Cited by 9 publications

References 33 publications

The Intramolecular Junctions of Carbon Nanotubes

The Intramolecular Junctions of Carbon Nanotubes

Computing and comparative analysis of topological invariants of Y‐junction carbon nanotubes

Hypergraphene from Armchair Nanotube Y Junctions

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