Herein, we demonstrate that the hydrophobicity of polymer backbones plays a pivotal role in governing the proteolytic stability of peptide brush polymers, an emerging class of synthetic proteomimetics or protein-like polymers.#GianneschiGroup@monicagroup
https://t.co/6t3udoUozk
The Lamb Lab is currently seeking enthusiastic postdocs with expertise in organic synthesis/methodology and interests in catalysis and sustainable polymers.
For more info and how to apply see: https://t.co/apJyK56OXC
@Chemjobber#chempostdoc#chemjobs
Very excited to share our recent work on the molecular weight dependence of micelle fragmentation kinetics! This was a really fun collaborative effort with @BrookhavenLab staff at the NSLS II. Check it out if you like micelles! https://t.co/foLh2QGhpD
🚨#Postdoc Position in Polymer Chemistry and Environmental Engineering with @Dichtelians, @NUChemistry
Come and join an amazing group and work on the development of new solutions to treat #PFAS and other micropollutants from water/wastewater
@AEESProfs @Chemjobber
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We introduce key applications in UF where block polymers may find usage, discuss processing and pore formation techniques, and raise future technological advances required for making these membranes viable for real world separations processes
Just released in @acsnano our review on integrating block polymers into ultrafiltration membrane technology. Special thanks to my coauthors @jaywerber, @EC_Feinberg , and Dr Daphne Chan. https://t.co/VDZHbpmWAE
Thermal and solution processing techniques used to trap disordered state in block polymer thin films to combine high permeability of commercial membranes with high selectivity of BCP membranes using potentially scalable methods