Hagan Bayley group (@bayley_lab) 's Twitter Profile
Hagan Bayley group

@bayley_lab

Chemistry | University of Oxford | United Kingdom

ID: 1092624080

linkhttp://bayley.chem.ox.ac.uk/ calendar_today15-01-2013 16:45:50

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Sebastien Vidal (@sebvidalchem) 's Twitter Profile Photo

Safety first !!! So here is a simple question tweeps. Which solvent could have caused such injury after poking one's finger with a syringe and injecting 1-2 drops of solvent. 15 minutes and 2 hrs pictures

Safety first !!!
So here is a simple question tweeps.
Which solvent could have caused such injury after poking one's finger with a syringe and injecting 1-2 drops of solvent. 15 minutes and 2 hrs pictures
Rosalind Franklin Institute (@rosfrankinst) 's Twitter Profile Photo

It was such a pleasure to have Prof. Hagan Bayley (Hagan Bayley group) who spoke to us last week about the development of Oxford Nanopore technology and their current work in fabricating 3D tissues (both living and synthetic).

It was such a pleasure to have Prof. Hagan Bayley (<a href="/bayley_lab/">Hagan Bayley group</a>) who spoke to us last week about the development of <a href="/nanopore/">Oxford Nanopore</a> technology and their current work in fabricating 3D tissues (both living and synthetic).
Michael Booth (@drmikebooth) 's Twitter Profile Photo

We engineered new synthetic and biological parts for synthetic cells 💪 for controllable communication with living bacteria 😍 orthogonal to previous studies 😎 Published in Nature Chemical Biology Led by Jefferson Smith Dr Denis Hartmann UCL Chemistry @SynBioCDT tinyurl.com/bdd3y56m

Ahmed Lab (@oxfordahmedlab) 's Twitter Profile Photo

Checkout our new 3D model for #ovariancancer MRD! An exciting collaboration with Hagan Bayley group taking us a step closer to #longersurvival for women with this disease". x.com/biorxivpreprin…

Ahmed Ashour Ahmed (@profahmeda) 's Twitter Profile Photo

Really excited about this work in collaboration with Hagan Bayley group We built a credible model for minimal residual disease in ovarian cancer. An important step towards MRD elimination. A surprisingly under investigated topic in solid tumours.

Michael Booth (@drmikebooth) 's Twitter Profile Photo

Big thanks to Nature Chemical Biology for inviting us to write a Research Briefing about our new paper on light-activated communication between synthetic cells and living cells 🤗😍🧑‍🏫 A short digestible piece 😋🧑‍🍳 Jefferson Smith SynBio CDT UCL Chemistry nature.com/articles/s4158…

Linna Zhou (@linnazhou1) 's Twitter Profile Photo

Glad to contribute to the new edition of “Encyclopedia of Astrobiology” with Hagan Hagan Bayley group Springer Nature Check out our perspective on 3D printing of synthetic, hybrid and live tissues for space!

Glad to contribute to the new edition of “Encyclopedia of Astrobiology” with Hagan <a href="/bayley_lab/">Hagan Bayley group</a> <a href="/SpringerNature/">Springer Nature</a>  Check out our perspective on 3D printing of synthetic, hybrid and live tissues for space!
Michael Booth (@drmikebooth) 's Twitter Profile Photo

Check out this incredible paper, developing a soft, microscale droplet-based power source able to activate neurons! Just published in nature from Hagan Bayley group Linna Zhou Oxford Chemistry nature.com/articles/s4158…

The Royal Society (@royalsociety) 's Twitter Profile Photo

The Buchanan Medal 2023 is awarded to Professor Hagan Bayley FRS for helping pioneer the founding Oxford Nanopore Technology, the hugely successful biotech company. #RSMedals royalsociety.org/grants-schemes…

The Buchanan Medal 2023 is awarded to Professor Hagan Bayley FRS for helping pioneer the founding Oxford Nanopore Technology, the hugely successful biotech company. #RSMedals royalsociety.org/grants-schemes…
Linna Zhou (@linnazhou1) 's Twitter Profile Photo

Tiny soft droplet battery that modulates neural tissue activities. Proud of our team to publish this work in Nature, Hagan Bayley group @yogayzhang Oxford Chemistry nature nature.com/articles/s4158…

Tiny soft droplet battery that modulates neural tissue activities. Proud of our team to publish this work in Nature, <a href="/bayley_lab/">Hagan Bayley group</a> @yogayzhang <a href="/OxfordChemistry/">Oxford Chemistry</a> <a href="/Nature/">nature</a> nature.com/articles/s4158…
Da Vinci Labs (@thedavincilabs) 's Twitter Profile Photo

Miniature bio-integrated #robots that harness the power of ion gradients can soon be used to stimulate cells and deliver targeted therapies! #BioTech #Innovation Hagan Bayley group nature.com/articles/s4158…

Nature Communications (@naturecomms) 's Twitter Profile Photo

.Linna Zhou, the Hagan Bayley group and others use a droplet printing technique to fabricate a simplified human cerebral cortical column and demonstrate its functionality and potential for future personalized therapy of brain injuries #BiotechNatureComms nature.com/articles/s4146…

Oxford Martin School (@oxmartinschool) 's Twitter Profile Photo

🧠 A breakthrough by the Oxford Martin Programme on 3D Printing for Brain Repair! University of Oxford researchers successfully 3D print neural cells that mimic the cerebral cortex, paving the way for tailored brain injury repairs. Published in Nature Communications ⬇️ oxfordmartin.ox.ac.uk/news/oxford-re…

🧠 A breakthrough by the Oxford Martin Programme on 3D Printing for Brain Repair!

<a href="/UniofOxford/">University of Oxford</a> researchers successfully 3D print neural cells that mimic the cerebral cortex, paving the way for tailored brain injury repairs.

Published in <a href="/NatureComms/">Nature Communications</a> ⬇️

oxfordmartin.ox.ac.uk/news/oxford-re…
Nature Methods (@naturemethods) 's Twitter Profile Photo

Research Highlight by Nina Vogt: The Hagan Bayley group has developed miniaturized power sources consisting of a few droplets that can generate enough power to modulate neuronal activity. Original paper: nature.com/articles/s4158… Highlight: nature.com/articles/s4159…

Michael Booth (@drmikebooth) 's Twitter Profile Photo

I will have a few PhD adverts coming out for the next academic year 👀 Here is the first one, to develop controllable nucleic delivery agents, joint with Cally Haynes 🧬🧫🤘 UCL Chemistry