Surface Modification Strategies for the Carbon Nanotubes

Prajapati, Shiv Kumar; Agnihotri, Tejas Girish; Jain, Aakanchha

doi:10.1002/9783527838790.ch2

Cited by 4 publications

(3 citation statements)

References 121 publications

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“…To enhance the sensing capabilities of carbon nanotube-based sensors, functionalization techniques are employed. Functionalization involves modifying the surface of carbon nanotubes with various molecules or functional groups [37]. These modifications can improve the adhesion of nanotubes to the substrate, enhance their electrical properties, or enable specific interactions with target analytes.…”

Section: Synthesis Methods and Fabrication Techniquesmentioning

confidence: 99%

A Comprehensive Review and Analysis of Nanosensors for Structural Health Monitoring in Bridge Maintenance: Innovations, Challenges, and Future Perspectives

Han,

Hosamo,

Ying

et al. 2023

Applied Sciences

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This paper presents a thorough review and detailed analysis of nanosensors for structural health monitoring (SHM) in the context of bridge maintenance. With rapid advancements in nanotechnology, nanosensors have emerged as promising tools for detecting and assessing the structural integrity of bridges. The objective of this review is to provide a comprehensive understanding of the various types of nanosensors utilized in bridge maintenance, their operating principles, fabrication techniques, and integration strategies. Furthermore, this paper explores the challenges associated with nanosensor deployment, such as signal processing, power supply, and data interpretation. Finally, the review concludes with an outlook on future developments in the field of nanosensors for SHM in bridge maintenance.

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Section: Synthesis Methods and Fabrication Techniquesmentioning

confidence: 99%

A Comprehensive Review and Analysis of Nanosensors for Structural Health Monitoring in Bridge Maintenance: Innovations, Challenges, and Future Perspectives

Han,

Hosamo,

Ying

et al. 2023

Applied Sciences

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“…A suitable catalyst and carbon source are used in the chemical vapor deposition method [73,74]. When it comes to creating carbon nanotubes, this method works like a charm.…”

Section: Chemical Vapor Depositionmentioning

confidence: 99%

“…Through this method, the CNTs display crystallinity up to 500 • C. Two problems exist with using chemical vapor deposition to create carbon nanotubes. The overconsumption of precursors during this process is one concern [73]. The second difference between this method and PECVD is the much higher temperatures used.…”

Section: Chemical Vapor Depositionmentioning

confidence: 99%

Recent Advances in Carbon Nanotube Utilization in Perovskite Solar Cells: A Review

Asghar,

Qamar,

Hakami

et al. 2024

Micromachines

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Due to their exceptional optoelectronic properties, halide perovskites have emerged as prominent materials for the light-absorbing layer in various optoelectronic devices. However, to increase device performance for wider adoption, it is essential to find innovative solutions. One promising solution is incorporating carbon nanotubes (CNTs), which have shown remarkable versatility and efficacy. In these devices, CNTs serve multiple functions, including providing conducting substrates and electrodes and improving charge extraction and transport. The next iteration of photovoltaic devices, metal halide perovskite solar cells (PSCs), holds immense promise. Despite significant progress, achieving optimal efficiency, stability, and affordability simultaneously remains a challenge, and overcoming these obstacles requires the development of novel materials known as CNTs, which, owing to their remarkable electrical, optical, and mechanical properties, have garnered considerable attention as potential materials for highly efficient PSCs. Incorporating CNTs into perovskite solar cells offers versatility, enabling improvements in device performance and longevity while catering to diverse applications. This article provides an in-depth exploration of recent advancements in carbon nanotube technology and its integration into perovskite solar cells, serving as transparent conductive electrodes, charge transporters, interlayers, hole-transporting materials, and back electrodes. Additionally, we highlighted key challenges and offered insights for future enhancements in perovskite solar cells leveraging CNTs.

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Carbon nanotubes in perovskite solar cells: A comprehensive review of recent developments and future directions

Qamar,

Aroosh,

Nawaz

et al. 2024

Synthetic Metals

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Surface Modification Strategies for the Carbon Nanotubes

Cited by 4 publications

References 121 publications

A Comprehensive Review and Analysis of Nanosensors for Structural Health Monitoring in Bridge Maintenance: Innovations, Challenges, and Future Perspectives

A Comprehensive Review and Analysis of Nanosensors for Structural Health Monitoring in Bridge Maintenance: Innovations, Challenges, and Future Perspectives

Recent Advances in Carbon Nanotube Utilization in Perovskite Solar Cells: A Review

Carbon nanotubes in perovskite solar cells: A comprehensive review of recent developments and future directions

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