DGIST Scholar: Nanomaterials and continuous wave laser-based efficient desorption for atmospheric pressure mass spectrometric imaging of live hippocampal tissue slices

Department of Robotics and Mechatronics Engineering Robotics Engineering Research Center 1. Journal Articles

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Nanomaterials and continuous wave laser-based efficient desorption for atmospheric pressure mass spectrometric imaging of live hippocampal tissue slices

Title: Nanomaterials and continuous wave laser-based efficient desorption for atmospheric pressure mass spectrometric imaging of live hippocampal tissue slices

Author(s): Kim, Jae Young ; Seo, Eun Seok ; Lim, Hee Jin ; Kim, Hyun Min ; Park, J.-W. ; Shin, H.H. ; Lim, D.-K. ; Moon, Dae Won

DGIST Authors: Kim, Jae Young ; Seo, Eun Seok ; Lim, Hee Jin ; Kim, Hyun Min ; Park, J.-W. ; Shin, H.H. ; Lim, D.-K. ; Moon, Dae Won

Issued Date: 2018-02

Type: Article

Article Type: Article

Keywords: ELECTROSPRAY-IONIZATION ; FIBER LASER ; MOLECULES ; GRAPHENE ; MATRIX ; MEMORY ; MS

ISSN: 2046-2069

Abstract: Micrometer-resolution mass spectrometric imaging of live hippocampal tissue is achieved with a highly efficient desorption of biomolecules using a 532 nm continuous wave laser and gold nanoparticles or graphene oxide as an energy transporter, which enables clear identification of the distributions of monoacylglycerol, adenine, cholesterol, sphingosine and ceramide. © The Royal Society of Chemistry 2018.

URI: http://hdl.handle.net/20.500.11750/6164

http://pubs.rsc.org/en/content/articlelanding/2018/ra/c8ra00038g#!divAbstract

DOI: 10.1039/c8ra00038g

Publisher: Royal Society of Chemistry

Related Researcher

Kim, Hyunmin
Research Interests Nonlinear optics; Femtosecond ultrafast carrier dynamics; Super resolution microscopy; Optical soliton transport; Biological imaging

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Appears in Collections:: Department of New Biology NanoBio Imaging Laboratory 1. Journal Articles; Department of Robotics and Mechatronics Engineering Robotics Engineering Research Center 1. Journal Articles; Division of Biomedical Technology 1. Journal Articles

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