Spectrum Analysis, Raman
"Spectrum Analysis, Raman" 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.
Analysis of the intensity of Raman scattering of monochromatic light as a function of frequency of the scattered light.
Descriptor ID |
D013059
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MeSH Number(s) |
E05.196.822.860 E05.196.867.890
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Concept/Terms |
Spectrum Analysis, Raman- Spectrum Analysis, Raman
- Raman Spectrum Analysis
- Raman Spectroscopy
- Spectroscopy, Raman
- Analysis, Raman Spectrum
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Below are MeSH descriptors whose meaning is more general than "Spectrum Analysis, Raman".
Below are MeSH descriptors whose meaning is more specific than "Spectrum Analysis, Raman".
This graph shows the total number of publications written about "Spectrum Analysis, Raman" by people in UAMS Profiles by year, and whether "Spectrum Analysis, Raman" 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 |
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2019 | 2 | 1 | 3 | 2018 | 0 | 1 | 1 | 2017 | 3 | 1 | 4 | 2016 | 0 | 1 | 1 | 2015 | 0 | 1 | 1 | 2014 | 0 | 1 | 1 | 2013 | 0 | 1 | 1 | 2012 | 1 | 0 | 1 | 2011 | 1 | 2 | 3 | 2010 | 1 | 0 | 1 | 2009 | 1 | 0 | 1 | 2005 | 1 | 1 | 2 | 2002 | 0 | 1 | 1 | 1988 | 0 | 1 | 1 |
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Below are the most recent publications written about "Spectrum Analysis, Raman" by people in Profiles over the past ten years.
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Locke A, Belsare S, Deutz N, Coté G. Aptamer-switching optical bioassay for citrulline detection at the point-of-care. J Biomed Opt. 2019 12; 24(12):1-6.
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Paidi SK, Diaz PM, Dadgar S, Jenkins SV, Quick CM, Griffin RJ, Dings RPM, Rajaram N, Barman I. Label-Free Raman Spectroscopy Reveals Signatures of Radiation Resistance in the Tumor Microenvironment. Cancer Res. 2019 04 15; 79(8):2054-2064.
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Nima ZA, Vang KB, Nedosekin D, Kannarpady G, Saini V, Bourdo SE, Majeed W, Watanabe F, Darrigues E, Alghazali KM, Alawajji RA, Petibone D, Ali S, Biris AR, Casciano D, Ghosh A, Salamo G, Zharov V, Biris AS. Quantification of cellular associated graphene and induced surface receptor responses. Nanoscale. 2019 Jan 17; 11(3):932-944.
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Thomas Robbins K, Triantafyllou A, Suárez C, López F, Hunt JL, Strojan P, Williams MD, Braakhuis BJM, de Bree R, Hinni ML, Kowalski LP, Rinaldo A, Rodrigo JP, Vander Poorten V, Nixon IJ, Takes RP, Silver CE, Ferlito A. Surgical margins in head and neck cancer: Intra- and postoperative considerations. Auris Nasus Larynx. 2019 Feb; 46(1):10-17.
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Nima ZA, Alwbari AM, Dantuluri V, Hamzah RN, Sra N, Motwani P, Arnaoutakis K, Levy RA, Bohliqa AF, Nedosekin D, Zharov VP, Makhoul I, Biris AS. Targeting nano drug delivery to cancer cells using tunable, multi-layer, silver-decorated gold nanorods. J Appl Toxicol. 2017 Dec; 37(12):1370-1378.
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Walton BM, Jackson GW, Deutz N, Cote G. Surface-enhanced Raman spectroscopy competitive binding biosensor development utilizing surface modification of silver nanocubes and a citrulline aptamer. J Biomed Opt. 2017 07 01; 22(7):75002.
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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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Majeed W, Bourdo S, Petibone DM, Saini V, Vang KB, Nima ZA, Alghazali KM, Darrigues E, Ghosh A, Watanabe F, Casciano D, Ali SF, Biris AS. The role of surface chemistry in the cytotoxicity profile of graphene. J Appl Toxicol. 2017 04; 37(4):462-470.
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Jenkins SV, Qu H, Mudalige T, Ingle TM, Wang R, Wang F, Howard PC, Chen J, Zhang Y. Rapid determination of plasmonic nanoparticle agglomeration status in blood. Biomaterials. 2015 May; 51:226-237.
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Evlyukhin E, Museur L, Traore M, Nikitin SM, Zerr A, Kanaev A. Laser-assisted high-pressure-induced polymerization of 2-(hydroxyethyl)methacrylate. J Phys Chem B. 2015 Feb 26; 119(8):3577-82.
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Nima ZA, Mahmood M, Xu Y, Mustafa T, Watanabe F, Nedosekin DA, Juratli MA, Fahmi T, Galanzha EI, Nolan JP, Basnakian AG, Zharov VP, Biris AS. Circulating tumor cell identification by functionalized silver-gold nanorods with multicolor, super-enhanced SERS and photothermal resonances. Sci Rep. 2014 May 09; 4:4752.
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Alda J, Castillo-Martinez C, Valdes-Rodriguez R, Hernández-Blanco D, Moncada B, González FJ. Use of Raman spectroscopy in the analysis of nickel allergy. J Biomed Opt. 2013 Jun; 18(6):061206.
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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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Khodakovskaya MV, Kim BS, Kim JN, Alimohammadi M, Dervishi E, Mustafa T, Cernigla CE. Carbon nanotubes as plant growth regulators: effects on tomato growth, reproductive system, and soil microbial community. Small. 2013 Jan 14; 9(1):115-23.
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Karmakar A, Iancu C, Bartos DM, Mahmood MW, Ghosh A, Xu Y, Dervishi E, Collom SL, Khodakovskaya M, Mustafa T, Watanabe F, Biris AR, Zhang Y, Ali SF, Casciano D, Hassen S, Nima Z, Biris AS. Raman spectroscopy as a detection and analysis tool for in vitro specific targeting of pancreatic cancer cells by EGF-conjugated, single-walled carbon nanotubes. J Appl Toxicol. 2012 May; 32(5):365-75.
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Tuchin VV, Tárnok A, Zharov VP. In vivo flow cytometry: a horizon of opportunities. Cytometry A. 2011 Oct; 79(10):737-45.
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Alimohammadi M, Xu Y, Wang D, Biris AS, Khodakovskaya MV. Physiological responses induced in tomato plants by a two-component nanostructural system composed of carbon nanotubes conjugated with quantum dots and its in vivo multimodal detection. Nanotechnology. 2011 Jul 22; 22(29):295101.
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