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Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity

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Zeitschriftentitel: Langmuir
Personen und Körperschaften: Wang, Yuanmo, Jonkute, Rima, Lindmark, Hampus, Keighron, Jacqueline D., Cans, Ann-Sofie
In: Langmuir, 36, 2020, 1, S. 37-46
Format: E-Article
Sprache: Englisch
veröffentlicht:
American Chemical Society (ACS)
Schlagwörter:
Electrochemistry
Spectroscopy
Surfaces and Interfaces
Condensed Matter Physics
General Materials Science
author_facet Wang, Yuanmo
Jonkute, Rima
Lindmark, Hampus
Keighron, Jacqueline D.
Cans, Ann-Sofie
Wang, Yuanmo
Jonkute, Rima
Lindmark, Hampus
Keighron, Jacqueline D.
Cans, Ann-Sofie
author Wang, Yuanmo
Jonkute, Rima
Lindmark, Hampus
Keighron, Jacqueline D.
Cans, Ann-Sofie
spellingShingle Wang, Yuanmo
Jonkute, Rima
Lindmark, Hampus
Keighron, Jacqueline D.
Cans, Ann-Sofie
Langmuir
Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
Electrochemistry
Spectroscopy
Surfaces and Interfaces
Condensed Matter Physics
General Materials Science
author_sort wang, yuanmo
spelling Wang, Yuanmo Jonkute, Rima Lindmark, Hampus Keighron, Jacqueline D. Cans, Ann-Sofie 0743-7463 1520-5827 American Chemical Society (ACS) Electrochemistry Spectroscopy Surfaces and Interfaces Condensed Matter Physics General Materials Science http://dx.doi.org/10.1021/acs.langmuir.9b02863 Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity Langmuir
doi_str_mv 10.1021/acs.langmuir.9b02863
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title Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_unstemmed Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_full Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_fullStr Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_full_unstemmed Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_short Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_sort molecular crowding and a minimal footprint at a gold nanoparticle support stabilize glucose oxidase and boost its activity
topic Electrochemistry
Spectroscopy
Surfaces and Interfaces
Condensed Matter Physics
General Materials Science
url http://dx.doi.org/10.1021/acs.langmuir.9b02863
publishDate 2020
physical 37-46
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author Wang, Yuanmo, Jonkute, Rima, Lindmark, Hampus, Keighron, Jacqueline D., Cans, Ann-Sofie
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physical 37-46
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source_id 49
spelling Wang, Yuanmo Jonkute, Rima Lindmark, Hampus Keighron, Jacqueline D. Cans, Ann-Sofie 0743-7463 1520-5827 American Chemical Society (ACS) Electrochemistry Spectroscopy Surfaces and Interfaces Condensed Matter Physics General Materials Science http://dx.doi.org/10.1021/acs.langmuir.9b02863 Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity Langmuir
spellingShingle Wang, Yuanmo, Jonkute, Rima, Lindmark, Hampus, Keighron, Jacqueline D., Cans, Ann-Sofie, Langmuir, Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity, Electrochemistry, Spectroscopy, Surfaces and Interfaces, Condensed Matter Physics, General Materials Science
title Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_full Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_fullStr Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_full_unstemmed Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_short Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
title_sort molecular crowding and a minimal footprint at a gold nanoparticle support stabilize glucose oxidase and boost its activity
title_unstemmed Molecular Crowding and a Minimal Footprint at a Gold Nanoparticle Support Stabilize Glucose Oxidase and Boost Its Activity
topic Electrochemistry, Spectroscopy, Surfaces and Interfaces, Condensed Matter Physics, General Materials Science
url http://dx.doi.org/10.1021/acs.langmuir.9b02863