M
Mehmet Toner
Researcher at Harvard University
Publications - 572
Citations - 60830
Mehmet Toner is an academic researcher from Harvard University. The author has contributed to research in topics: Circulating tumor cell & Cancer. The author has an hindex of 113, co-authored 550 publications receiving 54827 citations. Previous affiliations of Mehmet Toner include University of New Mexico & University of Notre Dame.
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Thermal performance of quartz capillaries for vitrification
TL;DR: A new technique based on the combined use of quartz capillaries with slush nitrogen achieved ultrafast cooling rates of 250,000 degrees C/min and a much lower concentration of cryoprotectant was needed to reach vitrification.
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Specific pathogen detection using bioorthogonal chemistry and diagnostic magnetic resonance.
Monty Liong,Marta Fernandez-Suarez,David Issadore,Changwook Min,Carlos Tassa,Thomas Reiner,Sarah M. Fortune,Mehmet Toner,Hakho Lee,Ralph Weissleder +9 more
TL;DR: Compared to other copper-free bioorthogonal chemistries, the cycloaddition reaction reported here displayed faster kinetics and yielded higher labeling efficiency, and it is feasible that this approach could be adapted for clinical use in resource-limited settings.
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Survival of Desiccated Mammalian Cells: Beneficial Effects of Isotonic Media
TL;DR: The objective of this study was to examine the effect that the composition of intra- and extracellular trehalose solutions has on the survival of dried 3T3 fibroblasts and found that the post-rehydration membrane integrity and percent cell growth were a function of the residual moisture content of the cells following drying.
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Janus-faced role of water in defining nanostructure of choline chloride/glycerol deep eutectic solvent
TL;DR: A Janus-faced role of water is discovered in defining the interactive network between choline chloride and glycerol and it is found that water could link choline to glycerl in place of chloride, demonstrating the de-structuring effect of water.
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Oscillatory inertial focusing in infinite microchannels
TL;DR: Using oscillatory microfluidics, inertial focusing in practically “infinite channels” can be achieved, allowing for focusing of micron-scale particles, and it is demonstrated that synthetic particles as small as 500 nm and a submicron bacterium, Staphylococcus aureus, can be inertially focused.