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- Nature of bilayer lipids affects membranes deformation and pore resealing during nanoparticle penetration - ScienceDirect
Nature of bilayer lipids affects membranes deformation and pore resealing during nanoparticle penetration - ScienceDirect
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Engineering polymer nanoparticles using cell membrane coating technology and their application in cancer treatments: Opportunities and challenges - ScienceDirect
Plasma membrane integrity: implications for health and disease, BMC Biology
Gold nanoparticles–biomembrane interactions: From fundamental to simulation - ScienceDirect
Penetration of nanoparticles across a lipid bilayer: effects of particle stiffness and surface hydrophobicity - Nanoscale (RSC Publishing) DOI:10.1039/C8NR09381D
Interaction between nanoparticles and cell membrane - ScienceDirect
Heterogeneity and deformation behavior of lipid vesicles - ScienceDirect
Nature of bilayer lipids affects membranes deformation and pore resealing during nanoparticle penetration - ScienceDirect
Overcoming skin barriers through advanced transdermal drug delivery approaches - ScienceDirect
Nature of bilayer lipids affects membranes deformation and pore resealing during nanoparticle penetration - ScienceDirect
Overcoming skin barriers through advanced transdermal drug delivery approaches - ScienceDirect
Interaction between nanoparticles and cell membrane - ScienceDirect
Nature of bilayer lipids affects membranes deformation and pore resealing during nanoparticle penetration - ScienceDirect
Penetration of nanoparticles across a lipid bilayer: effects of particle stiffness and surface hydrophobicity - Nanoscale (RSC Publishing) DOI:10.1039/C8NR09381D
A molecular insight into the electro-transfer of small molecules through electropores driven by electric fields - ScienceDirect
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