[HTML][HTML] Turning diamagnetic microbes into multinary micro-magnets: magnetophoresis and spatio-temporal manipulation of individual living cells
Inspired by the biogenic magnetism found in certain organisms, such as magnetotactic
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
[PDF][PDF] Turning Diamagnetic Microbes into Multinary Micro-Magnets: Magnetophoresis and Spatio-Temporal Manipulation of Individual Living Cells
H Lee, D Hong, H Cho, JY Kim, JH Park, SH Lee… - cyberleninka.org
Results Formation and Characterization of MSi on gold and yeast. The multinary
magnetization of cells was primarily based on the thickness-controllable LbL strategy, where …
magnetization of cells was primarily based on the thickness-controllable LbL strategy, where …
Turning Diamagnetic Microbes into Multinary Micro-Magnets: Magnetophoresis and Spatio-Temporal Manipulation of Individual Living Cells
H Lee, D Hong, H Cho, JY Kim, JH Park, SH Lee… - Scientific …, 2016 - pure.kaist.ac.kr
Inspired by the biogenic magnetism found in certain organisms, such as magnetotactic
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
Turning Diamagnetic Microbes into Multinary Micro-Magnets: Magnetophoresis and Spatio-Temporal Manipulation of Individual Living Cells.
H Lee, D Hong, H Cho, JY Kim, JH Park, SH Lee… - Scientific …, 2016 - europepmc.org
Inspired by the biogenic magnetism found in certain organisms, such as magnetotactic
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
[PDF][PDF] Turning Diamagnetic Microbes into Multinary Micro-Magnets: Magnetophoresis and Spatio-Temporal Manipulation of Individual Living Cells
H Lee, D Hong, H Cho, JY Kim, JH Park, SH Lee… - academia.edu
Results Formation and Characterization of MSi on gold and yeast. The multinary
magnetization of cells was primarily based on the thickness-controllable LbL strategy, where …
magnetization of cells was primarily based on the thickness-controllable LbL strategy, where …
Turning Diamagnetic Microbes into Multinary Micro-Magnets: Magnetophoresis and Spatio-Temporal Manipulation of Individual Living Cells.
H Lee, D Hong, H Cho, JY Kim, JH Park… - Scientific …, 2016 - search.ebscohost.com
Inspired by the biogenic magnetism found in certain organisms, such as magnetotactic
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
Turning Diamagnetic Microbes into Multinary Micro-Magnets: Magnetophoresis and Spatio-Temporal Manipulation of Individual Living Cells
H Lee, D Hong, H Cho, JY Kim, JH Park… - Scientific …, 2016 - pubmed.ncbi.nlm.nih.gov
Inspired by the biogenic magnetism found in certain organisms, such as magnetotactic
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
Turning Diamagnetic Microbes into Multinary Micro-Magnets: Magnetophoresis and Spatio-Temporal Manipulation of Individual Living Cells
H Lee, D Hong, H Cho, JY Kim, JH Park… - SCIENTIFIC …, 2016 - koasas.kaist.ac.kr
Inspired by the biogenic magnetism found in certain organisms, such as magnetotactic
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
[PDF][PDF] Turning Diamagnetic Microbes into Multinary Micro-Magnets: Magnetophoresis and Spatio-Temporal Manipulation of Individual Living Cells
H Lee, D Hong, H Cho, JY Kim, JH Park, SH Lee… - researchgate.net
Results Formation and Characterization of MSi on gold and yeast. The multinary
magnetization of cells was primarily based on the thickness-controllable LbL strategy, where …
magnetization of cells was primarily based on the thickness-controllable LbL strategy, where …
[HTML][HTML] Turning Diamagnetic Microbes into Multinary Micro-Magnets: Magnetophoresis and Spatio-Temporal Manipulation of Individual Living Cells
H Lee, D Hong, H Cho, JY Kim, JH Park, SH Lee… - Scientific …, 2016 - ncbi.nlm.nih.gov
Inspired by the biogenic magnetism found in certain organisms, such as magnetotactic
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …
bacteria, magnetic nanomaterials have been integrated into living cells for bioorthogonal …