🗺️ 🤖 “Technology Roadmap of Micro/Nanorobots” review has been published in @acsnano. This MEGA Review—authored by 103 researchers 🧑🔬 , spanning 161 📃 A4 pages, and citing 1,765 references—brings together leading groups from around the world. See https://t.co/LM9TEtk1TR
To develop soft materials that emulate behaviors of living organisms, we designed hydrogels that swim autonomously toward a light source. This intelligent phototactic behavior is controlled by supramolecular nanofibers linked to photoresponsive networks.
https://t.co/u5EarkJ3cG
Our perspective on the potential of #liquidcrystals in #microrobotics can be found through a short story and snippet told by great researchers of my team Negar, Matthew, Cole, Ramon, and Azin @uwaterloo_che@WaterlooENG published at Accounts of Mater. Res. https://t.co/DOs2Lbn7LZ
When proteins meet LCNs! Collaboration between us & @UWaterloo with @abdon_pf @UMich
Swimmer from Chemical Protein Motors & LCNs with active and passive directionality
Congratulations to Chuqi , Natalie, Chia-Heng Lin, Irving Tejedor, Matthew. More👇
https://t.co/5qtbLZ9DEp
Our zwitterionic programmable hydrogels for small-scale robotics came out in Small Methods!
Work by SMART-LAb @uwaterloo_che, lead by @NeginBouzari & Rasool Nasseri & collaboration @TangLab_NanoBio & Tiz Mekonnen's team @UWaterloo & @Amir_UStuttgart
https://t.co/LwSdp5uo6T
Mañana INMA Impulso con Ahmed Shahsavan
«Liquid crystalline materials for small-scale robotics»
https://t.co/dlmm3Fkcuj
@unizar@AragonCsic@Ciencias_Unizar