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Cilia-Mediated Electroosmotic Magnetohydrodynamic Hybrid Nanofluid Transport for Biomedical Applications: Impact of Radiation and Nanoparticle Geometry

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Published in:BioNanoScience
Format: Online Article RSS Article
Published: 2026
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discipline_display Chemistry
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institution FRELIP
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publishDate 2026
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spellingShingle Cilia-Mediated Electroosmotic Magnetohydrodynamic Hybrid Nanofluid Transport for Biomedical Applications: Impact of Radiation and Nanoparticle Geometry
Chemistry
General
Chemistry
sub_discipline_display General
sub_discipline_facet General
subject_display Chemistry
General
Chemistry
subject_facet Chemistry
General
Chemistry
title Cilia-Mediated Electroosmotic Magnetohydrodynamic Hybrid Nanofluid Transport for Biomedical Applications: Impact of Radiation and Nanoparticle Geometry
title_alt Transporte de nanofluido híbrido magnetohidrodinámico electroosmótico mediado por cilios para aplicaciones biomédicas: impacto de la radiación y la geometría de las nanopartículas
Transport de nanofluides hybrides magnétohydrodynamiques électroosmotiques médié par les cils pour des applications biomédicales : impact du rayonnement et de la géométrie des nanoparticules
Transporte de Nanofluido Híbrido Magnetohidrodinâmico Eletrosmótico Medido por Cílios para Aplicações Biomédicas: Impacto da Radiação e Geometria das Nanopartículas
title_auth Cilia-Mediated Electroosmotic Magnetohydrodynamic Hybrid Nanofluid Transport for Biomedical Applications: Impact of Radiation and Nanoparticle Geometry
title_es_txt Transporte de nanofluido híbrido magnetohidrodinámico electroosmótico mediado por cilios para aplicaciones biomédicas: impacto de la radiación y la geometría de las nanopartículas
title_fr_txt Transport de nanofluides hybrides magnétohydrodynamiques électroosmotiques médié par les cils pour des applications biomédicales : impact du rayonnement et de la géométrie des nanoparticules
title_full Cilia-Mediated Electroosmotic Magnetohydrodynamic Hybrid Nanofluid Transport for Biomedical Applications: Impact of Radiation and Nanoparticle Geometry
title_fullStr Cilia-Mediated Electroosmotic Magnetohydrodynamic Hybrid Nanofluid Transport for Biomedical Applications: Impact of Radiation and Nanoparticle Geometry
title_full_unstemmed Cilia-Mediated Electroosmotic Magnetohydrodynamic Hybrid Nanofluid Transport for Biomedical Applications: Impact of Radiation and Nanoparticle Geometry
title_pt_txt Transporte de Nanofluido Híbrido Magnetohidrodinâmico Eletrosmótico Medido por Cílios para Aplicações Biomédicas: Impacto da Radiação e Geometria das Nanopartículas
title_short Cilia-Mediated Electroosmotic Magnetohydrodynamic Hybrid Nanofluid Transport for Biomedical Applications: Impact of Radiation and Nanoparticle Geometry
title_sort cilia-mediated electroosmotic magnetohydrodynamic hybrid nanofluid transport for biomedical applications: impact of radiation and nanoparticle geometry
topic Chemistry
General
Chemistry
url https://link.springer.com/article/10.1007/s12668-026-02647-w