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A new paper from our group is published in Science Advances: advances.sciencemag.org/content/5/6/ea…. Mentioned in Durham research news: dur.ac.uk/research/news/…. This has between a fruitful collaboration with P&G. @JackRPanter SOFI CDT Durham Physics Durham University Biophysical Sciences Institute Science Advances

Factors controlling the pinning force of liquid droplets on liquid infused surfaces, Muhammad Subkhi Sadullah et al., @Hkusumaatmaja, Muhammad Subkhi Sadullah, @JackRPanter, Durham Physics, ow.ly/ssoe50BspQ6

#BSIPaperoftheWeek Phys. Rev. Lett. 126, 028002 (2021) - Control of Superselectivity by Crowding in Three-Dimensional Hosts journals.aps.org/prl/abstract/1… Halim Kusumaatmaja Andrew Christy & Mark Miller Durham Chemistry Durham Physics

We have another fantastic 4 year PhD studentship available for October 2021 with Halim Kusumaatmaja of Durham Physics. Please see the advert for full details and information on how to apply. findaphd.com/phds/project/m…

In Journal of Cell Biology, @hkusumaatmaja, May & Knorr Interfacial Cell Biology discuss the interaction mechanism of phase-separated and membrane-bound compartments and propose that this interplay can be understood as intracellular wetting phenomenon. bit.ly/3yojq65 @BioCondensates @IRILifeScience

New paper published in PNAS "Wetting of phase-separated droplets on plant vacuole membranes leads to a competition between tonoplast budding and nanotube formation" Interfacial Cell Biology @Joey_McK @FrigerioL pnas.org/content/118/36…

Very excited to share our recent paper on organelle morphogenesis! Halim Kusumaatmaja @Joey_McK @FrigerioL Mizushima Lab (UTokyo) @BioCondensates #membranes #wettability #phaseseparation #plantbiology #softmatter pnas.org/content/118/36…

#BSIPaperoftheWeek “Wetting of phase-separated droplets on plant vacuole membranes...” from Halim Kusumaatmaja, Roland L. Knorr et al suggests that the wettability of a plant cell's membrane is a factor in driving its internal organisation. pnas.org/content/118/36…

Applications for September 2022 for 20 funded places have opened. Apply before 28th November for the first round at soficdt.ac.uk

Apparent contact angle of drops on liquid infused surfaces: geometric interpretation, Ciro Semprebon et al., ow.ly/aTmJ50GFkkT

A recent paper with Muhammad Subkhi Sadullah, Glen McHale and Ciro Semprebon. Soft Matter cover.

How can we measure mechanical properties such as surface tension of #condensates in living cells? Check out our new preprint on bioRxiv! biorxiv.org/content/10.110…

Suzanne Calhoun, Kara Brower, Vineeth 'Vinny' Chandran Suja, PhD, Gaeun Kim, & Ali McCully led the #dropception team in a great collaboration with the Fuller & Halim Kusumaatmaja labs to develop models that predict DE size & stability based on interfacial surface tension & flow rates alone. (2/3)

Checkout out our paper detailing principles for robust and predictable generation of FACS-sortable double emulsions. Thankful to be part of this wonderful collaboration between Polly Fordyce, Fuller lab Stanford University and Halim Kusumaatmaja .

Our paper on Smale's 7th problem in Physical Review Letters is highlighted by phys.org: phys.org/news/2016-07-c…

Top 10 UK unis for English: in 1st place is Durham University! Massive well done! bit.ly/2aiWjSL #BeatrixPotter

A paper from our group is featured on the inside front cover of Soft Matter Emerging Investigators special issue x.com/softmatter/sta…

Apparent contact angle and contact angle hysteresis on liquid infused surfaces - ow.ly/vz5f307KsYf