Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators
Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp
Nature Publishing Group (NPG)
Published 2018
Nature Publishing Group (NPG)
Published 2018
| Publication Date: |
2018-06-20
|
|---|---|
| Publisher: |
Nature Publishing Group (NPG)
|
| Electronic ISSN: |
2041-1723
|
| Topics: |
Biology
Chemistry and Pharmacology
Natural Sciences in General
Physics
|
| Published by: |
| _version_ | 1836398978878406656 |
|---|---|
| autor | Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp |
| beschreibung | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators, Published online: 19 June 2018; doi:10.1038/s41467-018-04800-w Skeletal muscles are impressive as they can achieve reversible, macroscopic, anisotropic motion in soft materials. Here the authors show a bottom-up design of macroscopic hydrogel tubes containing supramolecular nanofibers that can undergo anisotropic actuation by thermal stimuli. |
| citation_standardnr | 6288021 |
| datenlieferant | ipn_articles |
| feed_id | 134647 |
| feed_publisher | Nature Publishing Group (NPG) |
| feed_publisher_url | http://www.nature.com/ |
| insertion_date | 2018-06-20 |
| journaleissn | 2041-1723 |
| publikationsjahr_anzeige | 2018 |
| publikationsjahr_facette | 2018 |
| publikationsjahr_intervall | 7984:2015-2019 |
| publikationsjahr_sort | 2018 |
| publisher | Nature Publishing Group (NPG) |
| quelle | Nature Communications |
| relation | http://feeds.nature.com/~r/ncomms/rss/current/~3/388ZAAGfTig/s41467-018-04800-w |
| search_space | articles |
| shingle_author_1 | Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp |
| shingle_author_2 | Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp |
| shingle_author_3 | Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp |
| shingle_author_4 | Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp |
| shingle_catch_all_1 | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators, Published online: 19 June 2018; doi:10.1038/s41467-018-04800-w Skeletal muscles are impressive as they can achieve reversible, macroscopic, anisotropic motion in soft materials. Here the authors show a bottom-up design of macroscopic hydrogel tubes containing supramolecular nanofibers that can undergo anisotropic actuation by thermal stimuli. Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp Nature Publishing Group (NPG) 2041-1723 20411723 |
| shingle_catch_all_2 | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators, Published online: 19 June 2018; doi:10.1038/s41467-018-04800-w Skeletal muscles are impressive as they can achieve reversible, macroscopic, anisotropic motion in soft materials. Here the authors show a bottom-up design of macroscopic hydrogel tubes containing supramolecular nanofibers that can undergo anisotropic actuation by thermal stimuli. Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp Nature Publishing Group (NPG) 2041-1723 20411723 |
| shingle_catch_all_3 | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators, Published online: 19 June 2018; doi:10.1038/s41467-018-04800-w Skeletal muscles are impressive as they can achieve reversible, macroscopic, anisotropic motion in soft materials. Here the authors show a bottom-up design of macroscopic hydrogel tubes containing supramolecular nanofibers that can undergo anisotropic actuation by thermal stimuli. Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp Nature Publishing Group (NPG) 2041-1723 20411723 |
| shingle_catch_all_4 | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators, Published online: 19 June 2018; doi:10.1038/s41467-018-04800-w Skeletal muscles are impressive as they can achieve reversible, macroscopic, anisotropic motion in soft materials. Here the authors show a bottom-up design of macroscopic hydrogel tubes containing supramolecular nanofibers that can undergo anisotropic actuation by thermal stimuli. Stacey M. Chin; Christopher V. Synatschke; Shuangping Liu; Rikkert J. Nap; Nicholas A. Sather; Qifeng Wang; Zaida Álvarez; Alexandra N. Edelbrock; Timmy Fyrner; Liam C. Palmer; Igal Szleifer; Monica Olvera de la Cruz; Samuel I. Stupp Nature Publishing Group (NPG) 2041-1723 20411723 |
| shingle_title_1 | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators |
| shingle_title_2 | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators |
| shingle_title_3 | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators |
| shingle_title_4 | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators |
| timestamp | 2025-06-30T23:35:40.703Z |
| titel | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators |
| titel_suche | Covalent-supramolecular hybrid polymers as muscle-inspired anisotropic actuators |
| topic | W V TA-TD U |
| uid | ipn_articles_6288021 |