Biomedical Applications of Carbon Nanotubes: A Critical Review

Sharma, Priyanka; Mehra, Neelesh Kumar; Jain, Keerti; Jain, Narendra Kumar

doi:10.2174/1567201813666160623091814

Cited by 88 publications

(49 citation statements)

References 162 publications

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“…Although several classes of NIR-II luminescent probes like organic fluorophores, CNTs and QDs have already been well summarized in academic journals or books [58][59][60][61], a review focusing on Ln 3+ -based NIR-II nanoprobes is highly desired so far. Rather than being exhaustive, this review aims to present a comprehensive investigation about the most recent achievements in Ln 3+ doped nano-bioprobes, which mainly covers from the strategies for improving the photoluminescence (PL) efficiency to their promising applications (Fig.…”

Section: +mentioning

confidence: 99%

Lanthanide-doped near-infrared II luminescent nanoprobes for bioapplications

Lian

et al. 2019

Sci. China Mater.

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Luminescent biosensing in the second nearinfrared (NIR-II) region is featured with superior spatial resolution and high penetration depth by virtue of the suppressed scattering of long-wavelength photons. Hitherto, the reported NIR-II nanoprobes are mostly based on carbon nanotubes, organic fluorophores or semiconducting quantum dots. As an alternative, trivalent lanthanide ions (Ln 3+) doped nanoparticles have been emerging as a novel class of promising nanoprobes. In this review, we highlight the recent progress in the design of highly efficient Ln 3+-doped NIR-II nanoparticles towards their emerging bioapplications, with an emphasis on autofluorescence-free bioimaging, sensitive bioassay, and accurate temperature sensing. Moreover, some efforts and challenges towards this rapidly expanding field are envisioned.

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Section: +mentioning

confidence: 99%

Lanthanide-doped near-infrared II luminescent nanoprobes for bioapplications

Lian

et al. 2019

Sci. China Mater.

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“…These not only have often the ability to outsmart the host defence of the organism, which for itself leads to improved yields of the payload delivery [190], but at the same time provide different other targeting approaches to improve this yield even more. Carbon nanostructures are still among the most researched types of nanostructures for biomedical applications [191,192], especially considering the high interest in them for various other applications (e.g., molecular electronics), a vast number of modification approaches are available for them [193,194], making them interesting candidates for future effective cancer treatment [173].…”

Section: Potential Impact Of Nanotechnology On Future Skin Cancer Trementioning

confidence: 99%

Skin Cancer and Its Treatment: Novel Treatment Approaches with Emphasis on Nanotechnology

Orthaber

Pristovnik

Skok

et al. 2017

Journal of Nanomaterials

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The life expectancy in the Western world is increasing for a long time, which is the courtesy of a higher life standard, a more thorough hygiene, and, of course, the progress of modern medicine. Nevertheless, one of the illnesses that still proves to be a great challenge regardless of the recent advancements in medicine is cancer. Skin cancer is, according to the World Health Organization, the most common malignancy for the white population. The beginning of the paper offers a brief overview of the latest available information concerning epidemiology, aetiology, diagnostics, and treatment options for skin cancer, whereas the rest of the article deals with modern approaches to skin cancer treatment, highlighting recent development of nanotechnology based treatment approaches. Among these, we focus especially on the newest nanotechnological approaches combined with chemotherapy, a field which specialises in target specificity, drug release control, and real time monitoring with the goal being to diminish unwanted side effects and their severity, achieving a cheaper treatment and a generally more efficient chemotherapy. The field of nanotechnology is a rapidly developing one, judging by already approved clinical studies or by new theranostic agents that combine both the therapeutic and diagnostic modalities.

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“…CNTs act as nanoreservoirs to adsorb the drug molecules by host-guest interaction. The hydrophobic and πÀπ stacking interaction force between the chains of adsorbed molecule and surface of CNTs helps in the functionalization on the surface (Tang et al, 2012;Sharma et al, 2016). Noncovalent functionalization is greatly important for enhanced biocompatibility and biomedical applications of CNTs (Tasis et al, 2006;Kumar et al, 2017).…”

Section: Noncovalent Functionalizationmentioning

confidence: 99%