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Literature DB >> 21704852

Surface-enhanced Raman scattering (SERS) cytometry.

Abstract

Significant advances have been made in the preparation and applications of surface-enhanced Raman scattering (SERS)-active materials for biomolecular analysis. Bright signals, photostability, and narrow spectral features of SERS-active materials offer attractive advantages for cytometric analyses. However, SERS cytometry is still in an early stage of development, and advances in both instrumentation and reagents will be necessary to realize its full potential. In this chapter, we discuss the challenges of expanding the numbers of fluorescent labels that can be measured in cytometry, and introduce SERS tags with extremely narrow spectral peaks as an approach to make more efficient use of the optical spectrum and increase the number of parameters in cytometry.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Year: 2011 PMID： 21704852 PMCID： PMC3128434 DOI： 10.1016/B978-0-12-374912-3.00020-1

Source DB: PubMed Journal: Methods Cell Biol ISSN： 0091-679X Impact factor: 1.441

69 in total

1. Surface-enhanced Raman scattering hybrid nanoprobe multiplexing and imaging in biological systems.

Authors: Andrea Matschulat; Daniela Drescher; Janina Kneipp
Journal: ACS Nano Date: 2010-06-22 Impact factor: 15.881

2. Composite organic-inorganic nanoparticles (COINs) with chemically encoded optical signatures.

Authors: Xing Su; Jingwu Zhang; Lei Sun; Tae-Woong Koo; Selena Chan; Narayan Sundararajan; Mineo Yamakawa; Andrew A Berlin
Journal: Nano Lett Date: 2005-01 Impact factor: 11.189

3. A heterogeneous PNA-based SERS method for DNA detection.

Authors: Laura Fabris; Mark Dante; Gary Braun; Seung Joon Lee; Norbert O Reich; Martin Moskovits; Thuc-Quyen Nguyen; Guillermo C Bazan
Journal: J Am Chem Soc Date: 2007-04-24 Impact factor: 15.419

4. A flow cytometer for the measurement of Raman spectra.

Authors: Dakota A Watson; Leif O Brown; Daniel F Gaskill; Mark Naivar; Steven W Graves; Stephen K Doorn; John P Nolan
Journal: Cytometry A Date: 2008-02 Impact factor: 4.355

Review 5. Vibrational spectroscopy: a clinical tool for cancer diagnostics.

Authors: Catherine Kendall; Martin Isabelle; Florian Bazant-Hegemark; Joanne Hutchings; Linda Orr; Jaspreet Babrah; Rebecca Baker; Nicholas Stone
Journal: Analyst Date: 2009-03-23 Impact factor: 4.616

6. Detection of chronic lymphocytic leukemia cell surface markers using surface enhanced Raman scattering gold nanoparticles.

Authors: Collin T Nguyen; James T Nguyen; Steven Rutledge; Janing Zhang; Chen Wang; Gilbert C Walker
Journal: Cancer Lett Date: 2009-12-29 Impact factor: 8.679

Review 7. Characterisation and identification of bacteria using SERS.

Authors: Roger M Jarvis; Royston Goodacre
Journal: Chem Soc Rev Date: 2008-03-26 Impact factor: 54.564

8. Rapid detection of an anthrax biomarker by surface-enhanced Raman spectroscopy.

Authors: Xiaoyu Zhang; Matthew A Young; Olga Lyandres; Richard P Van Duyne
Journal: J Am Chem Soc Date: 2005-03-30 Impact factor: 15.419

9. A controlled and reproducible pathway to dye-tagged, encapsulated silver nanoparticles as substrates for SERS multiplexing.

Authors: Leif O Brown; Stephen K Doorn
Journal: Langmuir Date: 2008-02-16 Impact factor: 3.882

10. Magnetic surface-enhanced Raman spectroscopic (M-SERS) dots for the identification of bronchioalveolar stem cells in normal and lung cancer mice.

Authors: Mi Suk Noh; Bong-Hyun Jun; Seongyong Kim; Homan Kang; Min-Ah Woo; Arash Minai-Tehrani; Ji-Eun Kim; Jaeyun Kim; Jooyoung Park; Hwang-Tae Lim; Se-Chang Park; Taeghwan Hyeon; Yong-Kweon Kim; Dae Hong Jeong; Yoon-Sik Lee; Myung-Haing Cho
Journal: Biomaterials Date: 2009-05-02 Impact factor: 12.479

10 in total

Review 1. In vivo flow cytometry: a horizon of opportunities.

Authors: Valery V Tuchin; Attila Tárnok; Vladimir P Zharov
Journal: Cytometry A Date: 2011-09-13 Impact factor: 4.355

Review 2. Spectral flow cytometry.

Authors: John P Nolan; Danilo Condello
Journal: Curr Protoc Cytom Date: 2013-01

Review 3. Single cell analysis using surface enhanced Raman scattering (SERS) tags.

Authors: John P Nolan; Erika Duggan; Er Liu; Danilo Condello; Isha Dave; Samuel A Stoner
Journal: Methods Date: 2012-04-04 Impact factor: 3.608

4. Bioanalytical applications of surface-enhanced Raman spectroscopy: de novo molecular identification.

Authors: Anh H Nguyen; Emily A Peters; Zachary D Schultz
Journal: Rev Anal Chem Date: 2017-07-05 Impact factor: 3.067

5. Visible and near infrared fluorescence spectral flow cytometry.

Authors: John P Nolan; Danilo Condello; Erika Duggan; Mark Naivar; David Novo
Journal: Cytometry A Date: 2012-12-06 Impact factor: 4.355

6. Generalized unmixing model for multispectral flow cytometry utilizing nonsquare compensation matrices.

Authors: David Novo; Gérald Grégori; Bartek Rajwa
Journal: Cytometry A Date: 2013-03-22 Impact factor: 4.355

7. Quantitative surface-enhanced resonant Raman scattering multiplexing of biocompatible gold nanostars for in vitro and ex vivo detection.

Authors: Hsiangkuo Yuan; Yang Liu; Andrew M Fales; You Leo Li; Jesse Liu; Tuan Vo-Dinh
Journal: Anal Chem Date: 2012-12-14 Impact factor: 6.986