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Dataset corresponding to the underlying data of PRIME scientific publications. - Publication title: Four-Dimensional Printed Liquid Crystalline Elastomer Actuators with Fast Photoinduced Mechanical Response toward Light-Driven Robotic Functions. - Publication reference: ACS Appl. Mater. Interfaces 2020, 12, 39, 44195. - Publication DOI: 10.1021/acsami.0c13341 - Figure 6 caption: Photoresponse of a dog bone-shaped LCE strip (110 μm thick) with uniaxial orientation. Director along the long axis of the element. A pre-stretching of the sample by a force of 2.4 mN has been applied prior to force measurements. Temporal dependence of force measurement under pulsed excitation (1 s, illumination starts at t = 0 s) with UV light (365 nm, purple line) at (a) 50, (c) 100, and (e) 200 mW/cm2. Temporal dependence of the sample surface temperature under pulsed excitation (1 s, illumination starts at t = 0 s) with UV light (365 nm, purple line) at (b) 50, (d) 100, and (f) 200 mW/cm2. PRIME. Advanced and versatile PRInting platform for the next generation of active Microfluidic dEvices, PRIME has received Funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No. 829010 and VIBRATE - Self-sustaining vibration and mechanical resonance effects in stimuli responsive liquid crystal polymer coatings and membranes (Vibrate) (669991), Peer reviewed

Dataset corresponding to the underlying data of PRIME scientific publications - Publication Title: Four-Dimensional Printed Liquid Crystalline Elastomer Actuators with Fast Photoinduced Mechanical Response toward Light-Driven Robotic Functions - Publication Reference: ACS Appl. Mater. Interfaces 2020, 12, 39, 44195. - Publication DOI: 10.1021/acsami.0c13341 Figure 4 caption: Photoresponse of a rectangular LCE strip (90 μm thick) with uniaxial orientation of the director along the long axis of the element with (a−c) low UV intensity (365 nm, 50 mW/cm2) and (d−f) high UV intensity (365 nm, 200 mW/cm2) exposure. A weight of 1 g is attached to the lower extreme of the strip. (a,d) Images of the LCE element successively acquired (i) before UV illumination, (ii) after UV illumination (after 4 and 1 min of illumination with 50 and 200 mW/cm2, respectively), (iii) 2 min after ceasing the UV illumination, and (iv) after 30 min of blue light illumination (455 nm, 4 mW/cm2). (b,e) Temporal dependence of normalized strip length during the initial part of the experiment showing contraction upon UV illumination (purple squares) with (b) 50 and (e) 200 mW/cm2 and the partial recovery of the length when UV illumination ceases (black squares). (b and d insets) Temporal dependence of normalized strip length during the whole experiment including the final blue light irradiation step (455 nm, 4 mW/cm2, for 30 min, blue squares). (c,f) Temporal dependence of temperature of the irradiated side of the LCE element illuminated (365 nm, purple line) with (c) 50 and (f) 200 mW/cm2. PRIME. Advanced and versatile PRInting platform for the next generation of active Microfluidic dEvices, PRIME has received Funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No. 829010 and VIBRATE - Self-sustaining vibration and mechanical resonance effects in stimuli responsive liquid crystal polymer coatings and membranes (Vibrate) (669991), Peer reviewed

Dataset corresponding to the underlying data of PRIME scientific publications. - Publication Title: Four-Dimensional Printed Liquid Crystalline Elastomer Actuators with Fast Photoinduced Mechanical Response toward Light-Driven Robotic Functions - Publication Reference: ACS Appl. Mater. Interfaces 2020, 12, 39, 44195. - Publication DOI: 10.1021/acsami.0c13341 - Figure 2 caption: Thermomechanical response of a uniaxially oriented strip (90 μm thick) with the director along its long axis. (a) Weight of 1 g attached to the extreme of the strip lifted upon heating. (i−iii) Camera images acquired on heating from (i) 30 °C to (ii) 100 °C and (iii) at 30 °C again after cooling down. (b) Temperature dependence of normalized length and width of the LCE strip during the heating process. The strip length and width were measured at 30 °C(L0 andW0, respectively) and during the temperature increase of the cycle (L and W, respectively). PRIME. Advanced and versatile PRInting platform for the next generation of active Microfluidic dEvices., PRIME has received Funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No. 829010 and VIBRATE - Self-sustaining vibration and mechanical resonance effects in stimuli responsive liquid crystal polymer coatings and membranes (Vibrate) (669991)., Peer reviewed

Dataset corresponding to the underlying data of PRIME scientific publications - Publication title: Four-Dimensional Printed Liquid Crystalline Elastomer Actuators with Fast Photoinduced Mechanical Response toward Light-Driven Robotic Functions - Publication reference: ACS Appl. Mater. Interfaces 2020, 12, 39, 44195. - Publication DOI: 10.1021/acsami.0c13341 - Figure S2 caption: Photoresponse of a dog-bone shaped LCE strip with uniaxial orientation. Peak force measurement at maximum under a sequence of ten pulses (pulse duration of 1 s with a periodicity of 11s) of UV light (365 nm) at 50 mW/cm2. PRIME. Advanced and versatile PRInting platform for the next generation of active Microfluidic dEvices., PRIME has received Funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No. 829010 and VIBRATE - Self-sustaining vibration and mechanical resonance effects in stimuli responsive liquid crystal polymer coatings and membranes (Vibrate) (669991)., Peer reviewed