Highly sensitive force measurements in an optically generated, harmonic hydrodynamic trap

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

Research from #eLight Highly sensitive force measurements in an optically generated, harmonic hydrodynamic trap #science #China #Materials @eLight2021 @CHNSci https://t.co/pX82aLuiEI

Featured by https://t.co/B2kCXLCalV https://t.co/ggAI0cLIBt https://t.co/pjlNvTb7fI https://t.co/RweNgqx3wm

RT @LightSciAppl: #eLignt_Highlight: [Original Article] Highly sensitive force measurements in an optically generated, harmonic hydrodynami…

RT @ChenziGuo: [2/2] I personally wrote the Science Portal news in Chinese. Actually, just within hours after it was published, I received…

RT @jarogumulec: New mechanobiological 🧫🔬methods snow 🌨️today! Force measurements without laser-particle contact ⚡️ by @KreysingLab @StoevI…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

@physicsvids_ We can. Even works on microscopic scale. https://t.co/FiEzSxb47a

New mechanobiological 🧫🔬methods snow 🌨️today! Force measurements without laser-particle contact ⚡️ by @KreysingLab @StoevIliya to overcome limitations of microfluidic traps

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @CWQiu3: Glad to see it published in our baby journal "eLight", and happy to pen a News & Views on Light: Science and Applications.

RT @CWQiu3: Glad to see it published in our baby journal "eLight", and happy to pen a News & Views on Light: Science and Applications.

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @ChenziGuo: [1/2]Like this paper a lot, it provides an entirely new way to trapping micron-sized particles. Compared to tweezers, this o…

RT @ChenziGuo: [2/2] I personally wrote the Science Portal news in Chinese. Actually, just within hours after it was published, I received…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @LightSciAppl: #eLignt_Highlight: [Original Article] Highly sensitive force measurements in an optically generated, harmonic hydrodynami…

RT @CWQiu3: Glad to see it published in our baby journal "eLight", and happy to pen a News & Views on Light: Science and Applications.

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @LightSciAppl: #eLignt_Highlight: [Original Article] Highly sensitive force measurements in an optically generated, harmonic hydrodynami…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

#eLignt_Highlight: [Original Article] Highly sensitive force measurements in an optically generated, harmonic hydrodynamic trap @KreysingLab @mpicbg #Force_measurements #Optofluidics #Hydrodynamic_trap #Thermoviscous_flows https://t.co/bbBij8xY3E

RT @eLight2021: Ever caught a balloon with a hair dryer? Our paper by @KreysingLab made an optical “hair dryer” which can remotely capture…

Glad to see it published in our baby journal "eLight", and happy to pen a News & Views on Light: Science and Applications.

Ever caught a balloon with a hair dryer? Our paper by @KreysingLab made an optical “hair dryer” which can remotely capture micro-particles. https://t.co/IuGgMoGQXk The paper is cover featured at https://t.co/tfgMT7xTZr, @CWQiu3 highlighted it @LightSciAppl

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

[2/2] I personally wrote the Science Portal news in Chinese. Actually, just within hours after it was published, I received a couple of messages, saying that they plan to follow up with this work. I hope many of our peers will find it interesting and do wh

[1/2]Like this paper a lot, it provides an entirely new way to trapping micron-sized particles. Compared to tweezers, this one is probe-material independent, the particle is free from direct exposure to laser. Opens possibilities for non-invasive, contact-

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

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RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

RT @KreysingLab: Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: htt…

Here it is: -> Opto-fluidic femtoNewton Force Measurements <- Read the full story in amazing eLight @SpringerNature: https://t.co/KhrwcYxox4 @mpicbg @PoLDresden @csbdresden https://t.co/EdoKmmMs07