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The integration of nanoscale imaging and quantitation of nanomechanical properties in microbiology

S. Andrea Gazze, Lewis Francis, Geertje Van Keulen Orcid Logo

Microbiology Today, Volume: 43, Issue: 3, Pages: 106 - 109

Swansea University Author: Geertje Van Keulen Orcid Logo

Abstract

Recent developments in nanotechnology enable the imaging, quantification and manipulation of materials at the near-atomic level. The number of applications of atomic force microscopy (AFM) in the life sciences is increasing, now allowing the integrated study of topological and quantitative nanoscale...

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Published in: Microbiology Today
Published: 2016
Online Access: http://www.microbiologysociety.org/download.cfm/docid/DFEBB0D8-1EE1-49F2-9ED645EB0C7EB7A7
URI: https://cronfa.swan.ac.uk/Record/cronfa31112
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first_indexed 2016-11-16T20:22:22Z
last_indexed 2018-02-09T05:17:41Z
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spelling 2017-01-10T11:50:48.6089494 v2 31112 2016-11-16 The integration of nanoscale imaging and quantitation of nanomechanical properties in microbiology 6b2c798924ac19de63e2168d50b99425 0000-0002-6044-1575 Geertje Van Keulen Geertje Van Keulen true false 2016-11-16 BMS Recent developments in nanotechnology enable the imaging, quantification and manipulation of materials at the near-atomic level. The number of applications of atomic force microscopy (AFM) in the life sciences is increasing, now allowing the integrated study of topological and quantitative nanoscale mechanical characterization of living cells and their interactions with their environments, which was inconceivable until recently. Journal Article Microbiology Today 43 3 106 109 atomic force microscopy, microbiology, soil, nanoimaging, nanomechanics 8 8 2016 2016-08-08 http://www.microbiologysociety.org/download.cfm/docid/DFEBB0D8-1EE1-49F2-9ED645EB0C7EB7A7 COLLEGE NANME Biomedical Sciences COLLEGE CODE BMS Swansea University 2017-01-10T11:50:48.6089494 2016-11-16T15:52:01.7716076 Faculty of Medicine, Health and Life Sciences Swansea University Medical School - Medicine S. Andrea Gazze 1 Lewis Francis 2 Geertje Van Keulen 0000-0002-6044-1575 3
title The integration of nanoscale imaging and quantitation of nanomechanical properties in microbiology
spellingShingle The integration of nanoscale imaging and quantitation of nanomechanical properties in microbiology
Geertje Van Keulen
title_short The integration of nanoscale imaging and quantitation of nanomechanical properties in microbiology
title_full The integration of nanoscale imaging and quantitation of nanomechanical properties in microbiology
title_fullStr The integration of nanoscale imaging and quantitation of nanomechanical properties in microbiology
title_full_unstemmed The integration of nanoscale imaging and quantitation of nanomechanical properties in microbiology
title_sort The integration of nanoscale imaging and quantitation of nanomechanical properties in microbiology
author_id_str_mv 6b2c798924ac19de63e2168d50b99425
author_id_fullname_str_mv 6b2c798924ac19de63e2168d50b99425_***_Geertje Van Keulen
author Geertje Van Keulen
author2 S. Andrea Gazze
Lewis Francis
Geertje Van Keulen
format Journal article
container_title Microbiology Today
container_volume 43
container_issue 3
container_start_page 106
publishDate 2016
institution Swansea University
college_str Faculty of Medicine, Health and Life Sciences
hierarchytype
hierarchy_top_id facultyofmedicinehealthandlifesciences
hierarchy_top_title Faculty of Medicine, Health and Life Sciences
hierarchy_parent_id facultyofmedicinehealthandlifesciences
hierarchy_parent_title Faculty of Medicine, Health and Life Sciences
department_str Swansea University Medical School - Medicine{{{_:::_}}}Faculty of Medicine, Health and Life Sciences{{{_:::_}}}Swansea University Medical School - Medicine
url http://www.microbiologysociety.org/download.cfm/docid/DFEBB0D8-1EE1-49F2-9ED645EB0C7EB7A7
document_store_str 0
active_str 0
description Recent developments in nanotechnology enable the imaging, quantification and manipulation of materials at the near-atomic level. The number of applications of atomic force microscopy (AFM) in the life sciences is increasing, now allowing the integrated study of topological and quantitative nanoscale mechanical characterization of living cells and their interactions with their environments, which was inconceivable until recently.
published_date 2016-08-08T03:37:57Z
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score 11.016235

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