Nathalie Bouet scite author profile

A hard X-ray scanning microscope installed at the Hard X-ray Nanoprobe beamline of the National Synchrotron Light Source II has been designed, constructed and commissioned. The microscope relies on a compact, high stiffness, low heat dissipation approach and utilizes two types of nanofocusing optics. It is capable of imaging with ∼15 nm × 15 nm spatial resolution using multilayer Laue lenses and 25 nm × 26 nm resolution using zone plates. Fluorescence, diffraction, absorption, differential phase contrast, ptychography and tomography are available as experimental techniques. The microscope is also equipped with a temperature regulation system which allows the temperature of a sample to be varied in the range between 90 K and 1000 K. The constructed instrument is open for general users and offers its capabilities to the material science, battery research and bioscience communities.

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11 nm hard X-ray focus from a large-aperture multilayer Laue lens

Huang

Yan

Nazaretski

et al. 2013

Sci Rep

132

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The focusing performance of a multilayer Laue lens (MLL) with 43.4 μm aperture, 4 nm finest zone width and 4.2 mm focal length at 12 keV was characterized with X-rays using ptychography method. The reconstructed probe shows a full-width-at-half-maximum (FWHM) peak size of 11.2 nm. The obtained X-ray wavefront shows excellent agreement with the dynamical calculations, exhibiting aberrations less than 0.3 wave period, which ensures the MLL capable of producing a diffraction-limited focus while offering a sufficient working distance. This achievement opens up opportunities of incorporating a variety of in-situ experiments into ultra high-resolution X-ray microscopy studies.

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Multimodal hard x-ray imaging with resolution approaching 10 nm for studies in material science

et al. 2018

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We report multimodal scanning hard x-ray imaging with spatial resolution approaching 10 nm and its application to contemporary studies in the field of material science. The high spatial resolution is achieved by focusing hard x-rays with two crossed multilayer Laue lenses and raster-scanning a sample with respect to the nanofocusing optics. Various techniques are used to characterize and verify the achieved focus size and imaging resolution. The multimodal imaging is realized by utilizing simultaneously absorption-, phase-, and fluorescence-contrast mechanisms. The combination of high spatial resolution and multimodal imaging enables a comprehensive study of a sample on a very fine length scale. In this work, the unique multimodal imaging capability was used to investigate a mixed ionic-electronic conducting ceramic-based membrane material employed in solid oxide fuel cells and membrane separations (compound of Ce0.8Gd0.2O2−x and CoFe2O4) which revealed the existence of an emergent material phase and quantified the chemical complexity at the nanoscale.

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Hard x-ray nanofocusing by multilayer Laue lenses

Yan¹,

Conley²,

Bouet³

et al. 2014

J. Phys. D: Appl. Phys.

113

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Pushing the limits: an instrument for hard X-ray imaging below 20 nm

Nazaretski

Lauer

Yan

et al. 2015

J Synchrotron Radiat

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Hard X-ray microscopy is a prominent tool suitable for nanoscale-resolution non-destructive imaging of various materials used in different areas of science and technology. With an ongoing effort to push the 2D/3D imaging resolution down to 10 nm in the hard X-ray regime, both the fabrication of nano-focusing optics and the stability of the microscope using those optics become extremely challenging. In this work a microscopy system designed and constructed to accommodate multilayer Laue lenses as nanofocusing optics is presented. The developed apparatus has been thoroughly characterized in terms of resolution and stability followed by imaging experiments at a synchrotron facility. Drift rates of ∼2 nm h(-1) accompanied by 13 nm × 33 nm imaging resolution at 11.8 keV are reported.

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Probing nanoscale structural and order/disorder phase transitions of supported Co-Pt clusters under annealing

et al. 2010

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Multimodality hard-x-ray imaging of a chromosome with nanoscale spatial resolution

Yan

Nazaretski

Lauer

et al. 2016

Sci Rep

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We developed a scanning hard x-ray microscope using a new class of x-ray nano-focusing optic called a multilayer Laue lens and imaged a chromosome with nanoscale spatial resolution. The combination of the hard x-ray’s superior penetration power, high sensitivity to elemental composition, high spatial-resolution and quantitative analysis creates a unique tool with capabilities that other microscopy techniques cannot provide. Using this microscope, we simultaneously obtained absorption-, phase-, and fluorescence-contrast images of Pt-stained human chromosome samples. The high spatial-resolution of the microscope and its multi-modality imaging capabilities enabled us to observe the internal ultra-structures of a thick chromosome without sectioning it.

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Temperature effect on the ordering and morphology of CoPt nanoparticles

et al. 2008

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Nathalie Bouet

Design and performance of an X-ray scanning microscope at the Hard X-ray Nanoprobe beamline of NSLS-II

11 nm hard X-ray focus from a large-aperture multilayer Laue lens

Multimodal hard x-ray imaging with resolution approaching 10 nm for studies in material science

Hard x-ray nanofocusing by multilayer Laue lenses

Pushing the limits: an instrument for hard X-ray imaging below 20 nm

Probing nanoscale structural and order/disorder phase transitions of supported Co-Pt clusters under annealing

Multimodality hard-x-ray imaging of a chromosome with nanoscale spatial resolution

Temperature effect on the ordering and morphology of CoPt nanoparticles

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