RT @PhysRevLett: By reducing interfacial density, nanoscale surface asperities enhance segmental mobility of polymers in thin films https:/…
RT @PhysRevLett: By reducing interfacial density, nanoscale surface asperities enhance segmental mobility of polymers in thin films https:/…
RT @PhysRevLett: By reducing interfacial density, nanoscale surface asperities enhance segmental mobility of polymers in thin films https:/…
RT @PhysRevLett: By reducing interfacial density, nanoscale surface asperities enhance segmental mobility of polymers in thin films https:/…
A paper of my group showing that, differently than what predicted by simulations, roughness can speed up molecular mobility
RT @BlackPhysicists: Substrate Roughness Speeds Up Segmental Dynamics of Thin Polymer Films https://t.co/eAWG8dwlWx #physics https://t.co/0…
Substrate Roughness Speeds Up Segmental Dynamics of Thin Polymer Films https://t.co/eAWG8dwlWx #physics https://t.co/0XoobLlzni
RT @PhysRevLett: By reducing interfacial density, nanoscale surface asperities enhance segmental mobility of polymers in thin films https:/…
By reducing interfacial density, nanoscale surface asperities enhance segmental mobility of polymers in thin films https://t.co/x1sW0b3dHf https://t.co/NE7fEevM0Z