NanoSIMS imaging of Bacillus spores sectioned by focused ion beam

Preparation and sectioning of bacterial spores by focused ion beam and subsequent high resolution secondary ion mass spectrometry analytical imaging is demonstrated. Scanning transmission electron microscopy mode imaging in a scanning electron microscope is used to show that the internal structure o...

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Veröffentlicht in:	Journal of microscopy (Oxford) 2010-06, Vol.238 (3), p.189-199
Hauptverfasser:	WEBER, P.K, GRAHAM, G.A, TESLICH, N.E, CHAN, W. MOBERLY, GHOSAL, S, LEIGHTON, T.J, WHEELER, K.E
Format:	Artikel
Sprache:	eng
Schlagworte:	Bacillus - chemistry Bacillus - ultrastructure FIB Image Processing, Computer-Assisted - methods microbial forensics Microscopy, Electron, Transmission - methods NanoSIMS sample preparation Spectrometry, Mass, Secondary Ion - methods Spores - chemistry Spores - ultrastructure
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container_title	Journal of microscopy (Oxford)
container_volume	238
creator	WEBER, P.K GRAHAM, G.A TESLICH, N.E CHAN, W. MOBERLY GHOSAL, S LEIGHTON, T.J WHEELER, K.E
description	Preparation and sectioning of bacterial spores by focused ion beam and subsequent high resolution secondary ion mass spectrometry analytical imaging is demonstrated. Scanning transmission electron microscopy mode imaging in a scanning electron microscope is used to show that the internal structure of the bacterial spore can be preserved during focused ion beam sectioning and can be imaged without contrast staining. Ion images of the sections show that the internal elemental distributions of the sectioned spores are preserved. A rapid focused ion beam top-sectioning method is demonstrated to yield comparable ion images without the need for sample trenching and section lift-out. The lift-out and thinning method enable correlated transmission electron microscopy and high resolution secondary ion mass spectrometry analyses. The top-cutting method is preferable if only secondary ion mass spectrometry analyses are performed because this method is faster and yields more sample material for analysis; depth of useful sample material is ~300 nm for top-cut sections versus ~100 nm for electron-transparent sections.
doi_str_mv	10.1111/j.1365-2818.2009.03336.x
format	Article
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subjects	Bacillus - chemistry Bacillus - ultrastructure FIB Image Processing, Computer-Assisted - methods microbial forensics Microscopy, Electron, Transmission - methods NanoSIMS sample preparation Spectrometry, Mass, Secondary Ion - methods Spores - chemistry Spores - ultrastructure
title	NanoSIMS imaging of Bacillus spores sectioned by focused ion beam
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