Design of High-Frequency Carbon Nanotube–Carbon Nanotorus Oscillators for Energy Harvesting: A Molecular Dynamics Study

Ajori, S.; Sadeghi, F.

doi:10.1021/acs.langmuir.3c03702

Cited by 3 publications

(1 citation statement)

References 75 publications

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“…The double- or multiwalled nanotubes (DWNTs or MWNTs) with intershell superlubricity serve as the potential candidate for the nano-oscillator, an essential ingredient of nanoelectromechanical systems (NEMS). − Besides, a strong coupling between single-electron tunneling and nanomechanical motion can exist in NEMS . Apart from that, oscillators are crucial components in many apparatuses, such as atomic force microscopy (AFM) and near-field optical microscopy (NFOM), where the tip oscillates at a frequency as it approaches the sample surface.…”

Section: Introductionmentioning

confidence: 99%

The CNT@BNNT Nano-oscillator Remotely Driven by an Electric Field

Ma,

Gao

2024

J. Phys. Chem. C

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The double-or multiwalled nanotubes with intershell superlubricity show the potential of a new generation of nano-oscillators. When they are encapsulated into devices, however, the contact mechanical initialization of nano-oscillators is less controllable for lack of precision, and the challenge is how to excite the oscillator remotely by external fields, such as electric or magnetic fields. This requires that the inner and outer tubes respond differently to external fields while maintaining the intershell superlubricity. Therefore, we consider that the heteronanotubes of carbon and boron nitride (CNT@BNNT) serve as an ideal candidate. We propose a conceptual design�the single electron transistor (SET) and CNT@BNNT oscillator�to realize remote excitation. With the help of SET, the CNT gets charged and then is driven by the electric field, while the insulating BNNT shows no response. The conceptual design is further validated by molecular dynamics simulations. Our results reveal the superior sustainability of CNT@ BNNT oscillators, excelling over the homogeneous CNT@CNT counterpart. Apart from remote excitation, the sustainability of oscillators should also be considered when designing, and thus we elaborate on various effects on sustainability, such as temperature, commensurability, spacing, tube end, etc. Our design is expected to provide a remedy for the practical application of CNT-based oscillators.

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Section: Introductionmentioning

confidence: 99%

The CNT@BNNT Nano-oscillator Remotely Driven by an Electric Field

Ma,

Gao

2024

J. Phys. Chem. C

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Synthesis of Sb₆₈^8–: Crafting a Homoatomic Antimony Nanotorus

Zhang,

Tian,

Chen

et al. 2024

J. Am. Chem. Soc.

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Pure-element cyclic molecules have garnered extensive attention owing to their intriguing structures and promising applications. Among these, carbon-based cyclic molecules such as cyclo [n]carbon (C n , n = 10−26) and carbon nanotori have ignited significant interest in both experimental and theoretical investigations. However, systematic investigations of analogous cyclic counterparts of heavier main-group elements are limited, with only a few known by theoretical studies. Furthermore, these corresponding cyclic structures lack synthetic examples in the condensed phase, primarily attributed to their high reactivity resulting from lone electron pairs and the absence of electronic delocalization, which typically aids in stabilizing the structure. In this work, we introduce the pioneering synthesis of a pure antimony-based inorganic nanotorus, denoted as Sb 68 8− , facilitated by the incorporation of C 60 for oxidation by utilizing wet-chemistry methodologies. The unique nanotorus structure was meticulously examined via singlecrystalline X-ray diffraction, unveiling its composition of 68 antimony atoms and forming a tubular structure with approximate dimensions of 18.5 × 18.4 Å 2 in a square shape. Theoretical calculations further revealed that the nanotorus structure, characterized by 16 delocalized electrons distributed across eight 3c-2e σ bonds, effectively saturated the eight two-coordinated Sb atoms within the cluster. This study unveils an innovative approach to synthesizing cyclic compounds solely from pure elements, departing from traditional methods dependent on chemical vapor deposition or surface synthesis, and heralds a profound paradigm shift in physical science.

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Electromagnetic Nanonetworks Beyond 6G: From Wearable and Implantable Networks to On-Chip and Quantum Communication

Abadal,

Han,

Petrov

et al. 2024

IEEE J. Select. Areas Commun.

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Emerging from the symbiotic combination of nanotechnology and communications, the field of nanonetworking has come a long way since its inception more than fifteen years ago. Significant progress has been achieved in several key communication technologies as enablers of the paradigm, as well as in the multiple application areas that it opens. In this paper, the focus is placed on the electromagnetic nanonetworking paradigm, providing an overview of the advances made in wireless nanocommunication technology from microwave through terahertz to optical bands. The characteristics and potential of the compared technologies are then confronted with the requirements and challenges of the broad set of nanonetworking applications in the Internet of NanoThings (IoNT) and on-chip networks paradigms, including quantum computing applications for the first time. Finally, a selection of cross-cutting issues and possible directions for future work are given, aiming to guide researchers and practitioners towards the next generation of electromagnetic nanonetworks.

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Design of High-Frequency Carbon Nanotube–Carbon Nanotorus Oscillators for Energy Harvesting: A Molecular Dynamics Study

Cited by 3 publications

References 75 publications

The CNT@BNNT Nano-oscillator Remotely Driven by an Electric Field

The CNT@BNNT Nano-oscillator Remotely Driven by an Electric Field

Synthesis of Sb₆₈^8–: Crafting a Homoatomic Antimony Nanotorus

Electromagnetic Nanonetworks Beyond 6G: From Wearable and Implantable Networks to On-Chip and Quantum Communication

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Design of High-Frequency Carbon Nanotube–Carbon Nanotorus Oscillators for Energy Harvesting: A Molecular Dynamics Study

Cited by 3 publications

References 75 publications

The CNT@BNNT Nano-oscillator Remotely Driven by an Electric Field

The CNT@BNNT Nano-oscillator Remotely Driven by an Electric Field

Synthesis of Sb688–: Crafting a Homoatomic Antimony Nanotorus

Electromagnetic Nanonetworks Beyond 6G: From Wearable and Implantable Networks to On-Chip and Quantum Communication

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Product

Resources

About

Synthesis of Sb₆₈^8–: Crafting a Homoatomic Antimony Nanotorus