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Studying Soft-matter and Biological Systems over a Wide Length-scale from Nanometer and Micrometer Sizes at the Small-angle Neutron Diffractometer KWS-2

The KWS-2 SANS diffractometer is dedicated to the investigation of soft matter and biophysical systems covering a wide length scale, from nm to µm. The instrument is optimized for the exploration of the wide momentum transfer Q range between 1x10(-4) and 0.5 Å(-1) by combining classical pinhole, foc...

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Autores principales: Radulescu, Aurel, Szekely, Noemi Kinga, Appavou, Marie-Sousai, Pipich, Vitaliy, Kohnke, Thomas, Ossovyi, Vladimir, Staringer, Simon, Schneider, Gerald J., Amann, Matthias, Zhang-Haagen, Bo, Brandl, Georg, Drochner, Matthias, Engels, Ralf, Hanslik, Romuald, Kemmerling, Günter
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MyJove Corporation 2016
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5226371/
https://www.ncbi.nlm.nih.gov/pubmed/28060296
http://dx.doi.org/10.3791/54639
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author Radulescu, Aurel
Szekely, Noemi Kinga
Appavou, Marie-Sousai
Pipich, Vitaliy
Kohnke, Thomas
Ossovyi, Vladimir
Staringer, Simon
Schneider, Gerald J.
Amann, Matthias
Zhang-Haagen, Bo
Brandl, Georg
Drochner, Matthias
Engels, Ralf
Hanslik, Romuald
Kemmerling, Günter
author_facet Radulescu, Aurel
Szekely, Noemi Kinga
Appavou, Marie-Sousai
Pipich, Vitaliy
Kohnke, Thomas
Ossovyi, Vladimir
Staringer, Simon
Schneider, Gerald J.
Amann, Matthias
Zhang-Haagen, Bo
Brandl, Georg
Drochner, Matthias
Engels, Ralf
Hanslik, Romuald
Kemmerling, Günter
author_sort Radulescu, Aurel
collection PubMed
description The KWS-2 SANS diffractometer is dedicated to the investigation of soft matter and biophysical systems covering a wide length scale, from nm to µm. The instrument is optimized for the exploration of the wide momentum transfer Q range between 1x10(-4) and 0.5 Å(-1) by combining classical pinhole, focusing (with lenses), and time-of-flight (with chopper) methods, while simultaneously providing high-neutron intensities with an adjustable resolution. Because of its ability to adjust the intensity and the resolution within wide limits during the experiment, combined with the possibility to equip specific sample environments and ancillary devices, the KWS-2 shows a high versatility in addressing the broad range of structural and morphological studies in the field. Equilibrium structures can be studied in static measurements, while dynamic and kinetic processes can be investigated over time scales between minutes to tens of milliseconds with time-resolved approaches. Typical systems that are investigated with the KWS-2 cover the range from complex, hierarchical systems that exhibit multiple structural levels (e.g., gels, networks, or macro-aggregates) to small and poorly-scattering systems (e.g., single polymers or proteins in solution). The recent upgrade of the detection system, which enables the detection of count rates in the MHz range, opens new opportunities to study even very small biological morphologies in buffer solution with weak scattering signals close to the buffer scattering level at high Q. In this paper, we provide a protocol to investigate samples with characteristic size levels spanning a wide length scale and exhibiting ordering in the mesoscale structure using KWS-2. We present in detail how to use the multiple working modes that are offered by the instrument and the level of performance that is achieved.
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spelling pubmed-52263712017-01-26 Studying Soft-matter and Biological Systems over a Wide Length-scale from Nanometer and Micrometer Sizes at the Small-angle Neutron Diffractometer KWS-2 Radulescu, Aurel Szekely, Noemi Kinga Appavou, Marie-Sousai Pipich, Vitaliy Kohnke, Thomas Ossovyi, Vladimir Staringer, Simon Schneider, Gerald J. Amann, Matthias Zhang-Haagen, Bo Brandl, Georg Drochner, Matthias Engels, Ralf Hanslik, Romuald Kemmerling, Günter J Vis Exp Bioengineering The KWS-2 SANS diffractometer is dedicated to the investigation of soft matter and biophysical systems covering a wide length scale, from nm to µm. The instrument is optimized for the exploration of the wide momentum transfer Q range between 1x10(-4) and 0.5 Å(-1) by combining classical pinhole, focusing (with lenses), and time-of-flight (with chopper) methods, while simultaneously providing high-neutron intensities with an adjustable resolution. Because of its ability to adjust the intensity and the resolution within wide limits during the experiment, combined with the possibility to equip specific sample environments and ancillary devices, the KWS-2 shows a high versatility in addressing the broad range of structural and morphological studies in the field. Equilibrium structures can be studied in static measurements, while dynamic and kinetic processes can be investigated over time scales between minutes to tens of milliseconds with time-resolved approaches. Typical systems that are investigated with the KWS-2 cover the range from complex, hierarchical systems that exhibit multiple structural levels (e.g., gels, networks, or macro-aggregates) to small and poorly-scattering systems (e.g., single polymers or proteins in solution). The recent upgrade of the detection system, which enables the detection of count rates in the MHz range, opens new opportunities to study even very small biological morphologies in buffer solution with weak scattering signals close to the buffer scattering level at high Q. In this paper, we provide a protocol to investigate samples with characteristic size levels spanning a wide length scale and exhibiting ordering in the mesoscale structure using KWS-2. We present in detail how to use the multiple working modes that are offered by the instrument and the level of performance that is achieved. MyJove Corporation 2016-12-08 /pmc/articles/PMC5226371/ /pubmed/28060296 http://dx.doi.org/10.3791/54639 Text en Copyright © 2016, Journal of Visualized Experiments http://creativecommons.org/licenses/by-nc-nd/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs 3.0 Unported License. To view a copy of this license, visithttp://creativecommons.org/licenses/by-nc-nd/3.0/
spellingShingle Bioengineering
Radulescu, Aurel
Szekely, Noemi Kinga
Appavou, Marie-Sousai
Pipich, Vitaliy
Kohnke, Thomas
Ossovyi, Vladimir
Staringer, Simon
Schneider, Gerald J.
Amann, Matthias
Zhang-Haagen, Bo
Brandl, Georg
Drochner, Matthias
Engels, Ralf
Hanslik, Romuald
Kemmerling, Günter
Studying Soft-matter and Biological Systems over a Wide Length-scale from Nanometer and Micrometer Sizes at the Small-angle Neutron Diffractometer KWS-2
title Studying Soft-matter and Biological Systems over a Wide Length-scale from Nanometer and Micrometer Sizes at the Small-angle Neutron Diffractometer KWS-2
title_full Studying Soft-matter and Biological Systems over a Wide Length-scale from Nanometer and Micrometer Sizes at the Small-angle Neutron Diffractometer KWS-2
title_fullStr Studying Soft-matter and Biological Systems over a Wide Length-scale from Nanometer and Micrometer Sizes at the Small-angle Neutron Diffractometer KWS-2
title_full_unstemmed Studying Soft-matter and Biological Systems over a Wide Length-scale from Nanometer and Micrometer Sizes at the Small-angle Neutron Diffractometer KWS-2
title_short Studying Soft-matter and Biological Systems over a Wide Length-scale from Nanometer and Micrometer Sizes at the Small-angle Neutron Diffractometer KWS-2
title_sort studying soft-matter and biological systems over a wide length-scale from nanometer and micrometer sizes at the small-angle neutron diffractometer kws-2
topic Bioengineering
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5226371/
https://www.ncbi.nlm.nih.gov/pubmed/28060296
http://dx.doi.org/10.3791/54639
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