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Organic matter identifies the nano-mechanical properties of native soil aggregates / S. A. Gazze; I. Hallin; G. Quinn; Ed Dudley; G. P. Matthews; Paul Rees; Geertje Van Keulen; Stefan Doerr; Lewis Francis

Nanoscale, Volume: 10, Issue: 2, Pages: 520 - 525

Swansea University Authors: Ed, Dudley, Paul, Rees, Geertje, Van Keulen, Stefan, Doerr, Lewis, Francis

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DOI (Published version): 10.1039/C7NR07070E

Abstract

Nanoscale mechanical properties of soil organic matter has been linked to macroscale soil behaviour via optimising QNM-AFM for rough and heterogeneous surface analysis, specifically intact soil micro-aggregates and particles.

Published in: Nanoscale
ISSN: 2040-3364 2040-3372
Published: Cambridge, UK Royal Society of Chemistry 2018
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URI: https://cronfa.swan.ac.uk/Record/cronfa37598
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first_indexed 2017-12-14T20:29:56Z
last_indexed 2020-08-07T03:01:18Z
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spelling 2020-08-06T14:52:19.6155838 v2 37598 2017-12-14 Organic matter identifies the nano-mechanical properties of native soil aggregates c7d05f992a817cd3b9a5f946bd909b71 Ed Dudley Ed Dudley true false 537a2fe031a796a3bde99679ee8c24f5 0000-0002-7715-6914 Paul Rees Paul Rees true false 6b2c798924ac19de63e2168d50b99425 0000-0002-6044-1575 Geertje Van Keulen Geertje Van Keulen true false 575eb5094f2328249328b3e43deb5088 0000-0002-8700-9002 Stefan Doerr Stefan Doerr true false 10f61f9c1248951c1a33f6a89498f37d 0000-0002-7803-7714 Lewis Francis Lewis Francis true false 2017-12-14 BMS Nanoscale mechanical properties of soil organic matter has been linked to macroscale soil behaviour via optimising QNM-AFM for rough and heterogeneous surface analysis, specifically intact soil micro-aggregates and particles. Journal Article Nanoscale 10 2 520 525 Royal Society of Chemistry Cambridge, UK 2040-3364 2040-3372 QNM Atomic Force Microscopy; Soil; Organic matter; Nanoscale; Repellency; Mechanical properties; Hydrology 31 12 2018 2018-12-31 10.1039/C7NR07070E COLLEGE NANME Biomedical Sciences COLLEGE CODE BMS Swansea University 2020-08-06T14:52:19.6155838 2017-12-14T16:40:44.7540000 Swansea University Medical School Medicine S. A. Gazze 1 I. Hallin 2 G. Quinn 3 Ed Dudley 4 G. P. Matthews 5 Paul Rees 0000-0002-7715-6914 6 Geertje Van Keulen 0000-0002-6044-1575 7 Stefan Doerr 0000-0002-8700-9002 8 Lewis Francis 0000-0002-7803-7714 9 0037598-14122017164651.pdf Gazze_etal_2017_Nanoscale_PostprintAcceptedversionDOI.pdf 2017-12-14T16:46:51.6000000 Output 1357618 application/pdf Accepted Manuscript true 2018-12-14T00:00:00.0000000 true eng
title Organic matter identifies the nano-mechanical properties of native soil aggregates
spellingShingle Organic matter identifies the nano-mechanical properties of native soil aggregates
Ed, Dudley
Paul, Rees
Geertje, Van Keulen
Stefan, Doerr
Lewis, Francis
title_short Organic matter identifies the nano-mechanical properties of native soil aggregates
title_full Organic matter identifies the nano-mechanical properties of native soil aggregates
title_fullStr Organic matter identifies the nano-mechanical properties of native soil aggregates
title_full_unstemmed Organic matter identifies the nano-mechanical properties of native soil aggregates
title_sort Organic matter identifies the nano-mechanical properties of native soil aggregates
author_id_str_mv c7d05f992a817cd3b9a5f946bd909b71
537a2fe031a796a3bde99679ee8c24f5
6b2c798924ac19de63e2168d50b99425
575eb5094f2328249328b3e43deb5088
10f61f9c1248951c1a33f6a89498f37d
author_id_fullname_str_mv c7d05f992a817cd3b9a5f946bd909b71_***_Ed, Dudley
537a2fe031a796a3bde99679ee8c24f5_***_Paul, Rees
6b2c798924ac19de63e2168d50b99425_***_Geertje, Van Keulen
575eb5094f2328249328b3e43deb5088_***_Stefan, Doerr
10f61f9c1248951c1a33f6a89498f37d_***_Lewis, Francis
author Ed, Dudley
Paul, Rees
Geertje, Van Keulen
Stefan, Doerr
Lewis, Francis
author2 S. A. Gazze
I. Hallin
G. Quinn
Ed Dudley
G. P. Matthews
Paul Rees
Geertje Van Keulen
Stefan Doerr
Lewis Francis
format Journal article
container_title Nanoscale
container_volume 10
container_issue 2
container_start_page 520
publishDate 2018
institution Swansea University
issn 2040-3364
2040-3372
doi_str_mv 10.1039/C7NR07070E
publisher Royal Society of Chemistry
college_str Swansea University Medical School
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hierarchy_top_id swanseauniversitymedicalschool
hierarchy_top_title Swansea University Medical School
hierarchy_parent_id swanseauniversitymedicalschool
hierarchy_parent_title Swansea University Medical School
department_str Medicine{{{_:::_}}}Swansea University Medical School{{{_:::_}}}Medicine
document_store_str 1
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description Nanoscale mechanical properties of soil organic matter has been linked to macroscale soil behaviour via optimising QNM-AFM for rough and heterogeneous surface analysis, specifically intact soil micro-aggregates and particles.
published_date 2018-12-31T03:57:26Z
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