We are hiring postdocs in various areas of regenerative engineering. More information on our website: sculptingregeneration.org. Thank you for sharing.

Grad to share the last piece of my PhD work with Yan Xia and the first corresponding paper! We introduced competitors to temporarilly supress the crosslinking to reversibly modulate hydrogel stiffness and viscoelasticity. pubs.acs.org/doi/10.1021/ac…

So excited to share that one of my postdoc work in Mooney's group has just come out! Here we developed an implantable soft robotic device capable of generating in vivo mechanical stimulation for mechano-therapy. nature.com/articles/s4156…

Research from the Wyss & Harvard SEAS has found that whether tissues' local environments are firm like Jell-O or fluid like honey changes how they develop. Further research could reveal how cancer grows based on where it forms. #MooneyLab Nature Materials nature.com/articles/s4156…

Our paper on how matrix viscoelasticity controls tissue spatial and temporal organisation is now out in Nature Materials. Harvard SEAS Wyss Institute The Francis Crick Institute KCL Physics European Research Council (ERC) nature.com/articles/s4156…

for our FINAL Harvard SEAS #topicsbioeng this spring, we e-welcome Simone Schuerle ETH Zurich for an e-seminar on "engineering microrobots for tissue probing, biosensing, and enhanced drug delivery." please join us on zoom for her public seminar 04/27 12-1pm! don't miss this one🙂🧬🧫⛈️

Congrats Sungmin! Well deserved. Looking forward to your independent career in Michigan.

Very excited to share that I will be joining Rice University as an assistant professor in Rice Neuroengineering Initiative and Rice Materials Science & NanoEngineering, starting July 2024 ! My lab will focus on building Cellular and Tissue Bioelectronic Interfaces, and designing/processing materials to further human health.

Excited to share our paper in Nature Materials titled "Cell volume expansion and local contractility drive collective invasion of the basement membrane in breast cancer". Co-led by Dr. Julie Chang and Dr. Aashrith Saraswathibhatla. (1/n) nature.com/articles/s4156…

[please share/retweet!] Very happy to announce that I will be starting at Rice Engineering and Computing as a CPRIT scholar ! I will be hiring 2-3 PhD students, so please encourage your talented undergraduates interested in materials, biotechnology, and cancer neuroscience to apply!

Huge congrats to Dave!

Excited to share my postdoc work with Sungmin. We introduced viscoelastic adhesive for muscle healing after muscle loss and demonstrated the importance of adhesion to secure the biomaterials in place during regeneration.

Excited to share my recent postdoc work on developing surface-functionalized microgels as artificial antigen‐presenting cells for T cell expansion and regulation of their phenotypes and cytotoxic functions. onlinelibrary.wiley.com/doi/abs/10.100…

Please RT:🌟Exciting Opportunity! We have multiple openings for postdocs in developing: 1️⃣ Genetically encoded tools based on protein assemblies 2️⃣ Neural interface. Interested? Reach out to us! #Postdoc #ResearchJobs #ScienceCareers

Postdoc opening on bioprinting/biomaterials/cell mechanics in my lab - focus on understanding how nonlinear elasticity (strain-stiffening) of extracellular matrix and homotypic/ heterotypic cell-cell interactions delineate stem cell behavior and function in 3D.

📢PhD opportunity!! The amazing The Francis Crick Institute international PhD Programme is now open! If you are interested in mechanobiology and the ECM, come and join our lab to study the role of the ECM dynamics in tissue organisation. Please RT. crick.ac.uk/careers-study/…

Update! 2-3 postdoc openings in bioprinting/biomaterials/cell mechanics in my lab - understanding how nonlinear elasticity of extracellular matrix and homotypic/heterotypic cell-cell interactions delineate stem cell behavior and function in 3D. PhD openings always!

Really happy to announce that our group's first paper was just published in Angewandte Chemie! We demonstrate allylic epoxides increase the strain energy for cyclic olefins, allowing us to make ROMP polymers that can be easily modified post polymerization. onlinelibrary.wiley.com/doi/full/10.10…

It is the great honor to receive the award and present my work at CMBE.

Excited to share our recent work on JCR, in which we achieved spatial regulation of stem cell osteogenesis in 3D porous hydrogels.