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- Sol, Jeroen A. H. P.; Peeketi, Akhil R.; Vyas, Nihit; Schenning, Albertus P. H. J.; Annabattula, Ratna K.; Debije, Michael G.
- Chemical communications 2019 v.55 no.12 pp. 1726-1729
- actuators; butterflies; chemical communication; chemical compounds; chemical reactions; films (materials); finite element analysis; liquid crystals; proboscis; rolling
- ... Liquid crystalline networks have been fashioned into thin films with tapered thicknesses, revealing the possibility of rolling up extremely tightly when triggered thermally or with light. Compared to the often limited bending shown previously in liquid crystal network actuators, these tapered films curl up several hundreds of degrees. Finite element results of simulated functionally graded thin fi ...