US20020086842A1 - Method for transfecting cells using a magnetic field - Google Patents
PDF) Increased accumulation of magnetic nanoparticles by magnetizable implant materials for the treatment of implant-associated complications
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US20020086842A1 - Method for transfecting cells using a magnetic field - Google Patents
Negatively charged magnetic nanoparticles pass the blood-placenta barrier under continuous flow conditions in a time-dependent manner - ScienceDirect
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Effects of PEGylation on capture of dextran-coated magnetic nanopartic | IJN
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Effects of PEGylation on capture of dextran-coated magnetic nanopartic | IJN
Increased accumulation of magnetic nanoparticles by magnetizable implant materials for the treatment of implant-associated complications | Journal of Nanobiotechnology | Full Text
US20020086842A1 - Method for transfecting cells using a magnetic field - Google Patents
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Targeted Delivery of Human VEGF Gene via Complexes of Magnetic Nanoparticle-Adenoviral Vectors Enhanced Cardiac Regeneration | PLOS ONE
Nanomaterials | Free Full-Text | Magnetic Nanoprobes for Spatio-Mechanical Manipulation in Single Cells | HTML
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Targeted Delivery of Human VEGF Gene via Complexes of Magnetic Nanoparticle-Adenoviral Vectors Enhanced Cardiac Regeneration | PLOS ONE
Improved transfection in human mesenchymal stem cells: effective intracellular release of pDNA by magnetic polyplexes | Nanomedicine
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Targeted Delivery of Human VEGF Gene via Complexes of Magnetic Nanoparticle-Adenoviral Vectors Enhanced Cardiac Regeneration | PLOS ONE
