Calcium Oxalate Crystallization: Influence of pH, Energy Input, and Supersaturation Ratio on the Synthesis of Artificial Kidney Stones

Calcium Oxalate Crystallization: Influence of pH, Energy Input, and Supersaturation Ratio on the Synthesis of Artificial Kidney Stones

Bibliographic Details
Main Authors: Helen Werner, Shalmali Bapat, Michael Schobesberger, Doris Segets, Sebastian P. Schwaminger
Format: Article
Language:English
Published: American Chemical Society 2021-10-01
Series:ACS Omega
Online Access:https://doi.org/10.1021/acsomega.1c03938
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author Helen Werner
Shalmali Bapat
Michael Schobesberger
Doris Segets
Sebastian P. Schwaminger
author_facet Helen Werner
Shalmali Bapat
Michael Schobesberger
Doris Segets
Sebastian P. Schwaminger
author_sort Helen Werner
collection DOAJ
first_indexed 2024-12-17T20:28:39Z
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institution Directory Open Access Journal
issn 2470-1343
language English
last_indexed 2024-12-17T20:28:39Z
publishDate 2021-10-01
publisher American Chemical Society
record_format Article
series ACS Omega
spelling doaj.art-f02e11924c124a7c8df1d2842a1b2c9c2022-12-21T21:33:40ZengAmerican Chemical SocietyACS Omega2470-13432021-10-01640265662657410.1021/acsomega.1c03938Calcium Oxalate Crystallization: Influence of pH, Energy Input, and Supersaturation Ratio on the Synthesis of Artificial Kidney StonesHelen Werner0Shalmali Bapat1Michael Schobesberger2Doris Segets3Sebastian P. Schwaminger4Bioseparation Engineering Group, Department of Mechanical Engineering, Technical University of Munich, Garching, GermanyProcess Technology for Electrochemical Functional Materials, Institute for Combustion and Gas DynamicsReactive Fluids (IVG-RF), University of Duisburg-Essen (UDE), Duisburg, GermanyBioseparation Engineering Group, Department of Mechanical Engineering, Technical University of Munich, Garching, GermanyProcess Technology for Electrochemical Functional Materials, Institute for Combustion and Gas DynamicsReactive Fluids (IVG-RF), University of Duisburg-Essen (UDE), Duisburg, GermanyBioseparation Engineering Group, Department of Mechanical Engineering, Technical University of Munich, Garching, Germanyhttps://doi.org/10.1021/acsomega.1c03938
spellingShingle Helen Werner
Shalmali Bapat
Michael Schobesberger
Doris Segets
Sebastian P. Schwaminger
Calcium Oxalate Crystallization: Influence of pH, Energy Input, and Supersaturation Ratio on the Synthesis of Artificial Kidney Stones
ACS Omega
title Calcium Oxalate Crystallization: Influence of pH, Energy Input, and Supersaturation Ratio on the Synthesis of Artificial Kidney Stones
title_full Calcium Oxalate Crystallization: Influence of pH, Energy Input, and Supersaturation Ratio on the Synthesis of Artificial Kidney Stones
title_fullStr Calcium Oxalate Crystallization: Influence of pH, Energy Input, and Supersaturation Ratio on the Synthesis of Artificial Kidney Stones
title_full_unstemmed Calcium Oxalate Crystallization: Influence of pH, Energy Input, and Supersaturation Ratio on the Synthesis of Artificial Kidney Stones
title_short Calcium Oxalate Crystallization: Influence of pH, Energy Input, and Supersaturation Ratio on the Synthesis of Artificial Kidney Stones
title_sort calcium oxalate crystallization influence of ph energy input and supersaturation ratio on the synthesis of artificial kidney stones
url https://doi.org/10.1021/acsomega.1c03938
work_keys_str_mv AT helenwerner calciumoxalatecrystallizationinfluenceofphenergyinputandsupersaturationratioonthesynthesisofartificialkidneystones
AT shalmalibapat calciumoxalatecrystallizationinfluenceofphenergyinputandsupersaturationratioonthesynthesisofartificialkidneystones
AT michaelschobesberger calciumoxalatecrystallizationinfluenceofphenergyinputandsupersaturationratioonthesynthesisofartificialkidneystones
AT dorissegets calciumoxalatecrystallizationinfluenceofphenergyinputandsupersaturationratioonthesynthesisofartificialkidneystones
AT sebastianpschwaminger calciumoxalatecrystallizationinfluenceofphenergyinputandsupersaturationratioonthesynthesisofartificialkidneystones

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