 Nanotubes, Carbon
"Nanotubes, Carbon" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus,
MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure,
which enables searching at various levels of specificity.
Nanometer-sized tubes composed mainly of CARBON. Such nanotubes are used as probes for high-resolution structural and chemical imaging of biomolecules with ATOMIC FORCE MICROSCOPY.
| Descriptor ID |
D037742
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| MeSH Number(s) |
D01.268.150.250.500 J01.637.512.850.500
|
| Concept/Terms |
Nanotubes, Carbon- Nanotubes, Carbon
- Carbon Nanotube
- Nanotube, Carbon
- Carbon Nanotubes
- Buckytubes
- Buckytube
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Below are MeSH descriptors whose meaning is more general than "Nanotubes, Carbon".
Below are MeSH descriptors whose meaning is more specific than "Nanotubes, Carbon".
This graph shows the total number of publications written about "Nanotubes, Carbon" by people in UAMS Profiles by year, and whether "Nanotubes, Carbon" was a major or minor topic of these publications.
To see the data from this visualization as text, click here.
| Year | Major Topic | Minor Topic | Total |
|---|
| 2020 | 1 | 0 | 1 | | 2019 | 2 | 0 | 2 | | 2017 | 4 | 0 | 4 | | 2016 | 2 | 0 | 2 | | 2014 | 3 | 0 | 3 | | 2013 | 3 | 0 | 3 | | 2012 | 3 | 0 | 3 | | 2011 | 6 | 2 | 8 | | 2010 | 6 | 2 | 8 | | 2009 | 4 | 1 | 5 | | 2008 | 1 | 0 | 1 | | 2007 | 1 | 0 | 1 |
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Below are the most recent publications written about "Nanotubes, Carbon" by people in Profiles over the past ten years.
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Nozdriukhin D, Besedina N, Chernyshev V, Efimova O, Rudakovskaya P, Novoselova M, Bratashov D, Chuprov-Netochin R, Kamyshinsky R, Vasiliev A, Chermoshentsev D, Dyakov SA, Zharov V, Gippius N, Gorin DA, Yashchenok A. Gold nanoparticle-carbon nanotube multilayers on silica microspheres: Optoacoustic-Raman enhancement and potential biomedical applications. Mater Sci Eng C Mater Biol Appl. 2021 Jan; 120:111736.
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Pandey K, Anas M, Hicks VK, Green MJ, Khodakovskaya MV. Improvement of Commercially Valuable Traits of Industrial Crops by Application of Carbon-based Nanomaterials. Sci Rep. 2019 12 18; 9(1):19358.
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Ceppi L, Bardhan NM, Na Y, Siegel A, Rajan N, Fruscio R, Del Carmen MG, Belcher AM, Birrer MJ. Real-Time Single-Walled Carbon Nanotube-Based Fluorescence Imaging Improves Survival after Debulking Surgery in an Ovarian Cancer Model. ACS Nano. 2019 05 28; 13(5):5356-5365.
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McGehee DL, Alimohammadi M, Khodakovskaya MV. Carbon-based nanomaterials as stimulators of production of pharmaceutically active alkaloids in cell culture of Catharanthus roseus. Nanotechnology. 2019 Jul 05; 30(27):275102.
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Pandey K, Lahiani MH, Hicks VK, Hudson MK, Green MJ, Khodakovskaya M. Effects of carbon-based nanomaterials on seed germination, biomass accumulation and salt stress response of bioenergy crops. PLoS One. 2018; 13(8):e0202274.
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Lahiani MH, Nima ZA, Villagarcia H, Biris AS, Khodakovskaya MV. Assessment of Effects of the Long-Term Exposure of Agricultural Crops to Carbon Nanotubes. J Agric Food Chem. 2018 Jul 05; 66(26):6654-6662.
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Darrigues E, Dantuluri V, Nima ZA, Vang-Dings KB, Griffin RJ, Biris AR, Ghosh A, Biris AS. Raman spectroscopy using plasmonic and carbon-based nanoparticles for cancer detection, diagnosis, and treatment guidance. Part 2: Treatment. Drug Metab Rev. 2017 05; 49(2):253-283.
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Darrigues E, Nima ZA, Majeed W, Vang-Dings KB, Dantuluri V, Biris AR, Zharov VP, Griffin RJ, Biris AS. Raman spectroscopy using plasmonic and carbon-based nanoparticles for cancer detection, diagnosis, and treatment guidance.Part 1: Diagnosis. Drug Metab Rev. 2017 05; 49(2):212-252.
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Lahiani MH, Gokulan K, Williams K, Khodakovskaya MV, Khare S. Graphene and carbon nanotubes activate different cell surface receptors on macrophages before and after deactivation of endotoxins. J Appl Toxicol. 2017 Nov; 37(11):1305-1316.
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Lahiani MH, Eassa S, Parnell C, Nima Z, Ghosh A, Biris AS, Khodakovskaya MV. Carbon nanotubes as carriers of Panax ginseng metabolites and enhancers of ginsenosides Rb1 and Rg1 anti-cancer activity. Nanotechnology. 2017 Jan 06; 28(1):015101.
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Kotagiri N, Sakon J, Han H, Zharov VP, Kim JW. Fluorescent ampicillin analogues as multifunctional disguising agents against opsonization. Nanoscale. 2016 Jul 07; 8(25):12658-67.
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Saeed LM, Mahmood M, Pyrek SJ, Fahmi T, Xu Y, Mustafa T, Nima ZA, Bratton SM, Casciano D, Dervishi E, Radominska-Pandya A, Biris AS. Single-walled carbon nanotube and graphene nanodelivery of gambogic acid increases its cytotoxicity in breast and pancreatic cancer cells. J Appl Toxicol. 2014 Nov; 34(11):1188-99.
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Ghosh D, Bagley AF, Na YJ, Birrer MJ, Bhatia SN, Belcher AM. Deep, noninvasive imaging and surgical guidance of submillimeter tumors using targeted M13-stabilized single-walled carbon nanotubes. Proc Natl Acad Sci U S A. 2014 Sep 23; 111(38):13948-53.
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Zhang Y, Petibone D, Xu Y, Mahmood M, Karmakar A, Casciano D, Ali S, Biris AS. Toxicity and efficacy of carbon nanotubes and graphene: the utility of carbon-based nanoparticles in nanomedicine. Drug Metab Rev. 2014 May; 46(2):232-46.
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Lahiani MH, Dervishi E, Chen J, Nima Z, Gaume A, Biris AS, Khodakovskaya MV. Impact of carbon nanotube exposure to seeds of valuable crops. ACS Appl Mater Interfaces. 2013 Aug 28; 5(16):7965-73.
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Nima ZA, Mahmood MW, Karmakar A, Mustafa T, Bourdo S, Xu Y, Biris AS. Single-walled carbon nanotubes as specific targeting and Raman spectroscopic agents for detection and discrimination of single human breast cancer cells. J Biomed Opt. 2013 May; 18(5):55003.
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Mahmood M, Xu Y, Dantuluri V, Mustafa T, Zhang Y, Karmakar A, Casciano D, Ali S, Biris A. Carbon nanotubes enhance the internalization of drugs by cancer cells and decrease their chemoresistance to cytostatics. Nanotechnology. 2013 Feb 01; 24(4):045102.
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Ingle T, Dervishi E, Biris AR, Mustafa T, Buchanan RA, Biris AS. Raman spectroscopy analysis and mapping the biodistribution of inhaled carbon nanotubes in the lungs and blood of mice. J Appl Toxicol. 2013 Oct; 33(10):1044-52.
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