Logarithmic and Archimedean organic crystalline spirals
Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals prestrains the crystals into hybrid dynamic elements with spiral shapes that respond reversibly to environmental va...
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| Published in | Nature communications Vol. 15; no. 1; pp. 9025 - 11 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
18.10.2024
Nature Publishing Group Nature Portfolio |
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| Abstract | Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals prestrains the crystals into hybrid dynamic elements with spiral shapes that respond reversibly to environmental variations in temperature or humidity by curling. Exposure to humidity results in partial uncurling within several seconds, whereby a logarithmic-type spiral crystal is transformed into an Archimedean one. Conical helices obtained by lateral pulling of the spirals can wind around solid objects similar to plant tendrils or lift suspended objects with a positive correlation between the actuator’s elongation and the cargo mass. The morphological, kinematic, and kinetic attributes turn these hybrid materials into an attractive platform for flexible sensors and soft robots, while they also provide an approach to morph crystalline fibers in non-natural spiral habits inaccessible with the common crystallization approaches.
The growth of crystals as spirals is unusual and this morphology can be applied to the development of flexible sensors and soft robots when the crystals respond to external stimuli. Here, the authors report the incorporation of a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals to produce crystals having spiral shapes that respond reversibly to environmental variations. |
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| AbstractList | Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals prestrains the crystals into hybrid dynamic elements with spiral shapes that respond reversibly to environmental variations in temperature or humidity by curling. Exposure to humidity results in partial uncurling within several seconds, whereby a logarithmic-type spiral crystal is transformed into an Archimedean one. Conical helices obtained by lateral pulling of the spirals can wind around solid objects similar to plant tendrils or lift suspended objects with a positive correlation between the actuator’s elongation and the cargo mass. The morphological, kinematic, and kinetic attributes turn these hybrid materials into an attractive platform for flexible sensors and soft robots, while they also provide an approach to morph crystalline fibers in non-natural spiral habits inaccessible with the common crystallization approaches.
The growth of crystals as spirals is unusual and this morphology can be applied to the development of flexible sensors and soft robots when the crystals respond to external stimuli. Here, the authors report the incorporation of a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals to produce crystals having spiral shapes that respond reversibly to environmental variations. Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals prestrains the crystals into hybrid dynamic elements with spiral shapes that respond reversibly to environmental variations in temperature or humidity by curling. Exposure to humidity results in partial uncurling within several seconds, whereby a logarithmic-type spiral crystal is transformed into an Archimedean one. Conical helices obtained by lateral pulling of the spirals can wind around solid objects similar to plant tendrils or lift suspended objects with a positive correlation between the actuator’s elongation and the cargo mass. The morphological, kinematic, and kinetic attributes turn these hybrid materials into an attractive platform for flexible sensors and soft robots, while they also provide an approach to morph crystalline fibers in non-natural spiral habits inaccessible with the common crystallization approaches.The growth of crystals as spirals is unusual and this morphology can be applied to the development of flexible sensors and soft robots when the crystals respond to external stimuli. Here, the authors report the incorporation of a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals to produce crystals having spiral shapes that respond reversibly to environmental variations. Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals prestrains the crystals into hybrid dynamic elements with spiral shapes that respond reversibly to environmental variations in temperature or humidity by curling. Exposure to humidity results in partial uncurling within several seconds, whereby a logarithmic-type spiral crystal is transformed into an Archimedean one. Conical helices obtained by lateral pulling of the spirals can wind around solid objects similar to plant tendrils or lift suspended objects with a positive correlation between the actuator's elongation and the cargo mass. The morphological, kinematic, and kinetic attributes turn these hybrid materials into an attractive platform for flexible sensors and soft robots, while they also provide an approach to morph crystalline fibers in non-natural spiral habits inaccessible with the common crystallization approaches. Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals prestrains the crystals into hybrid dynamic elements with spiral shapes that respond reversibly to environmental variations in temperature or humidity by curling. Exposure to humidity results in partial uncurling within several seconds, whereby a logarithmic-type spiral crystal is transformed into an Archimedean one. Conical helices obtained by lateral pulling of the spirals can wind around solid objects similar to plant tendrils or lift suspended objects with a positive correlation between the actuator's elongation and the cargo mass. The morphological, kinematic, and kinetic attributes turn these hybrid materials into an attractive platform for flexible sensors and soft robots, while they also provide an approach to morph crystalline fibers in non-natural spiral habits inaccessible with the common crystallization approaches.Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals prestrains the crystals into hybrid dynamic elements with spiral shapes that respond reversibly to environmental variations in temperature or humidity by curling. Exposure to humidity results in partial uncurling within several seconds, whereby a logarithmic-type spiral crystal is transformed into an Archimedean one. Conical helices obtained by lateral pulling of the spirals can wind around solid objects similar to plant tendrils or lift suspended objects with a positive correlation between the actuator's elongation and the cargo mass. The morphological, kinematic, and kinetic attributes turn these hybrid materials into an attractive platform for flexible sensors and soft robots, while they also provide an approach to morph crystalline fibers in non-natural spiral habits inaccessible with the common crystallization approaches. Abstract Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals prestrains the crystals into hybrid dynamic elements with spiral shapes that respond reversibly to environmental variations in temperature or humidity by curling. Exposure to humidity results in partial uncurling within several seconds, whereby a logarithmic-type spiral crystal is transformed into an Archimedean one. Conical helices obtained by lateral pulling of the spirals can wind around solid objects similar to plant tendrils or lift suspended objects with a positive correlation between the actuator’s elongation and the cargo mass. The morphological, kinematic, and kinetic attributes turn these hybrid materials into an attractive platform for flexible sensors and soft robots, while they also provide an approach to morph crystalline fibers in non-natural spiral habits inaccessible with the common crystallization approaches. Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender centimeter-size organic crystals prestrains the crystals into hybrid dynamic elements with spiral shapes that respond reversibly to environmental variations in temperature or humidity by curling. Exposure to humidity results in partial uncurling within several seconds, whereby a logarithmic-type spiral crystal is transformed into an Archimedean one. Conical helices obtained by lateral pulling of the spirals can wind around solid objects similar to plant tendrils or lift suspended objects with a positive correlation between the actuator’s elongation and the cargo mass. The morphological, kinematic, and kinetic attributes turn these hybrid materials into an attractive platform for flexible sensors and soft robots, while they also provide an approach to morph crystalline fibers in non-natural spiral habits inaccessible with the common crystallization approaches. |
| ArticleNumber | 9025 |
| Author | Naumov, Panče Alhaddad, Zainab Di, Qi Li, Liang Tang, Baolei Tahir, Ibrahim Lan, Linfeng Zhang, Hongyu Yang, Xuesong |
| Author_xml | – sequence: 1 givenname: Xuesong surname: Yang fullname: Yang, Xuesong organization: State Key Laboratory of Supramolecular Structure and Materials, College of Chemistry, Jilin University – sequence: 2 givenname: Linfeng orcidid: 0000-0001-7051-9332 surname: Lan fullname: Lan, Linfeng organization: State Key Laboratory of Supramolecular Structure and Materials, College of Chemistry, Jilin University – sequence: 3 givenname: Ibrahim orcidid: 0000-0001-9231-9809 surname: Tahir fullname: Tahir, Ibrahim organization: Smart Materials Lab, New York University Abu Dhabi – sequence: 4 givenname: Zainab surname: Alhaddad fullname: Alhaddad, Zainab organization: Smart Materials Lab, New York University Abu Dhabi – sequence: 5 givenname: Qi surname: Di fullname: Di, Qi organization: State Key Laboratory of Supramolecular Structure and Materials, College of Chemistry, Jilin University – sequence: 6 givenname: Liang orcidid: 0000-0002-3577-4343 surname: Li fullname: Li, Liang organization: Smart Materials Lab, New York University Abu Dhabi, Department of Sciences and Engineering, Sorbonne University Abu Dhabi – sequence: 7 givenname: Baolei surname: Tang fullname: Tang, Baolei email: tangbl15@mails.jlu.edu.cn organization: State Key Laboratory of Supramolecular Structure and Materials, College of Chemistry, Jilin University – sequence: 8 givenname: Panče orcidid: 0000-0003-2416-6569 surname: Naumov fullname: Naumov, Panče email: pance.naumov@nyu.edu organization: Smart Materials Lab, New York University Abu Dhabi, Center for Smart Engineering Materials, New York University Abu Dhabi, Research Center for Environment and Materials, Macedonian Academy of Sciences and Arts, Bul. Krste Misirkov 2, Molecular Design Institute, Department of Chemistry, New York University, 100 Washington Square East – sequence: 9 givenname: Hongyu orcidid: 0000-0002-0219-3948 surname: Zhang fullname: Zhang, Hongyu email: hongyuzhang@jlu.edu.cn organization: State Key Laboratory of Supramolecular Structure and Materials, College of Chemistry, Jilin University |
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| Snippet | Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender... Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto slender... Abstract Crystals can be found in many shapes but do not usually grow as spirals. Here we show that applying a non-uniform layer of a polymer blend onto... |
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| SubjectTerms | 639/301/1005/1006 639/638/298/923/3931 639/638/541/961 Actuators Chemical Sciences Crystal growth Crystal pulling Crystallization Crystals External stimuli Fibers Flexible components Helices Humanities and Social Sciences Humidity Kinematics Logarithms Morphology multidisciplinary Organic crystals Polymer blends Polymers Robots Science Science (multidisciplinary) Sensors Soft robotics Spirals |
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| Title | Logarithmic and Archimedean organic crystalline spirals |
| URI | https://link.springer.com/article/10.1038/s41467-024-53196-3 https://www.ncbi.nlm.nih.gov/pubmed/39424800 https://www.proquest.com/docview/3118118686 https://www.proquest.com/docview/3118305945 https://hal.science/hal-04953417 https://pubmed.ncbi.nlm.nih.gov/PMC11489683 https://doaj.org/article/ccc72b41085c421b8c2e02bdbc7c0289 |
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