Japanese Study Devises Way to Bend Molecular Crystals Using UV Light By Soumya Duggal/ Updated On Thu, Jul 29th, 2021 Highlights : “Photothermal effect” is a phenomenon in which heat is generated by exciting materials with light. “Molecular crystals,” unlike ordinary gemstones-like crystals, can bend and twist when excited with light or heat and have garnered attention for potential applications in actuators, artificial muscles, and soft robotics. “Molecular crystals,” unlike ordinary gemstones-like crystals, can bend, twist, and even jump when excited with light or heat and have garnered attention from chemists, materials scientists, and engineers alike owing to their potential applications in actuators, artificial muscles, and soft robotics. In a recent study published in the Journal of the American Chemical Society, scientists from Japan have made thick crystals bend rapidly with UV light using what is called the “photothermal effect,” a phenomenon in which heat is generated by exciting materials with light. Adjunct Researcher Hideko Koshima from Waseda University, Japan, who led the study, lays out their motivation: “Last year, our team accidentally discovered that the photothermal effect causes a crystal to bend fast, but we couldn’t explain why. Against this backdrop, we sought to create a new, faster bending crystal and clarify the underlying mechanism.” Scientists first exposed a thin salicylideneaniline derivative crystal, a promising mechanical crystal candidate, to UV light and obtained substantial bending within approximately 1 second. However, the bend angle dropped rapidly with increasing crystal thickness, revealing that the bending was caused by photoisomerization. Things took an interesting turn when on illuminating a thick (>40 microns) crystal with UV light, they observed an extremely rapid bending within several milliseconds, a distinct signature of the photothermal effect. Furthermore, by using a pulsed UV laser light, they could make the crystals bend at a frequency of 500 Hz (cycles/second). Japanese Scientists Use Visible Light to Decompose CO2 With Efficiency Also Read The scientists next determined heat conduction in the crystal using temperature wave analysis and suggested a potential bending mechanism in which a non-steady temperature gradient in the thickness direction generated the high-speed bending. By calculating the temperature gradient numerically, they simulated the bending motion to validate the proposed mechanism. Global Solar Lighting Systems Market to Reach $11.2 Billion by 2026 Also Read The team is thrilled about the implications of their findings. “As the photothermal effect occurs in almost all crystals that absorb light, any light may move any crystal at high speeds. Further, the bending motion can now be simulated, providing the basis for practical applications such as in light-driven actuators. What’s more, these light-activated mechanical crystals can be used to create novel soft robotic structures that ensure safe human-robot interaction,” speculates Koshima, excited. So, is a future where a friendly and safe robot companion such as Baymax from Big Hero 6 within our grasp? The findings by Koshima’s team have certainly put us one step forward in that direction. Tags: Hideko Koshima, japan, Molecular crystals, UV Light, Waseda University