Welcome to DU!
The truly grassroots left-of-center political community where regular people, not algorithms, drive the discussions and set the standards.
Join the community:
Create a free account
Support DU (and get rid of ads!):
Become a Star Member
Latest Breaking News
General Discussion
The DU Lounge
All Forums
Issue Forums
Culture Forums
Alliance Forums
Region Forums
Support Forums
Help & Search
Science
Related: About this forumDancing with the light: A new way to make crystals bend by shining light
Date:
July 29, 2021
Source:
Waseda University
Summary:
Generating mechanical motion in crystals using light or heat has increasingly become the focus of materials scientists. However, the conventional mechanism employed for the purpose produces slow responses and is ineffective for thick crystals. Now, in a new study, scientists report and validate a new mechanism for generating fast bending motion in thick crystals with light-induced heating, opening doors to light-driven mechanics with more versatile crystals.
The word "crystal" typically conjures up images of gemstones like diamonds in our minds. Generally associating words like "hardness" and "rigidity" with crystals, we would most likely not consider them as flexible. However, certain "molecular 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.
The secret to the remarkable mechanical properties of molecular crystals lies in "photoisomerization," a process in which a molecule takes on a different structure by absorbing light. However, several drawbacks, such as slow mechanical response and limited choice of wavelength for inducing photoisomerization, limit the applicability of molecular crystals. Moreover, only very thin crystals (up to 20 microns) can show appreciable mechanical response.
Now, in a recent study published in the Journal of the American Chemical Society, scientists from Japan have taken things to the next level by making 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).
More:
https://www.sciencedaily.com/releases/2021/07/210729122137.htm
InfoView thread info, including edit history
TrashPut this thread in your Trash Can (My DU » Trash Can)
BookmarkAdd this thread to your Bookmarks (My DU » Bookmarks)
2 replies, 870 views
ShareGet links to this post and/or share on social media
AlertAlert this post for a rule violation
PowersThere are no powers you can use on this post
EditCannot edit other people's posts
ReplyReply to this post
EditCannot edit other people's posts
Rec (6)
ReplyReply to this post
2 replies
= new reply since forum marked as read
Highlight:
NoneDon't highlight anything
5 newestHighlight 5 most recent replies
Dancing with the light: A new way to make crystals bend by shining light (Original Post)
Judi Lynn
Jul 2021
OP
CentralMass
(15,265 posts)1. Very interesting.
tanyev
(42,550 posts)2. Marking to read later.