PhD work in @NaturePhotonics is just out! We report the nanoscale thermal limit force detection in the aqueous solution with a force sensitivity down to 1.8 fN Hz-1/2. Great appreciation for the supervision from @Fan_uts and the collaboration with Xuchen. https://t.co/m6PdiGbolf
🙀Our paper in @Nature is just out! 🥳We imaged for the first time a chemical reaction with interferometric scattering microscopy (iSCAT) 🔬🧪By doing that we found solvent structuring in the early stages of covalent organic frameworks (COFs) formation. https://t.co/39DV4NGeih
Molecular Triplet Generation Enabled by Adjacent Metal Nanoparticles | Journal of the American Chemical Society #Triplet#Generation#Metal#Nanoparticles https://t.co/7vCGQ4UsZ8
Very happy to share our new work that published on Optics Letters, Temporal compressive edge imaging enabled by a lensless diffuser camera. It is also open accessed. Nice teamwork with @Fan_uts@AberdeenPhysics@JustLei2#OSA_OL https://t.co/dYjxou640h @OpticaPubsGroup
Our first paper on molecular trapping with polymer brushes is now published in @NatureComms ! We can trap hundreds of proteins in one attoliter in a stable and non-invasive manner. https://t.co/BJpjJf1ZmZ
Check out our latest work in @Nature! We show that photon avalanching nanoparticles can be switched on and off repeatedly using light, which allows us to perform <1 Å accuracy super-resolution imaging and 3D nanopatterning. https://t.co/z1lV6uB3sv
(open access link in 🧵)
Label-free 3D Imaging in Live Cells
via Confocal iSCAT Microscopy
Now online at Nature Communications: https://t.co/WXs4D1ucQ8
Featuring: Nanoscopic topography of nuclear envelope, Dynamics of ER, Transport along Microtubules, Nano-motion of clathrin-coated pits and viruses...
Our latest @PhysRevLett shows how to push the boundaries of light scattering from small particles using complex frequency excitations. @AlexKrasnok
https://t.co/zHVLfG6vO1
Pour some tau protein on a #microtubule, and the microtubule will contract. I still remember the first day we saw it happening in the #optical_tweezers. And I am happy I could contribute a little to this fascinating story. https://t.co/53wTF2eVs4
Delighted to have contributed a section on Rotational Levitated Optomechanics, with @grahamdbruce , to the Roadmap for Optical Tweezers which is now available on @arxiv https://t.co/7l0DUuHXfU
Lots of insightful pieces from colleagues around the world!