Author
Listed:
- Sunbum Kwon
(Molecular-Level Interface Research Center)
- Beom Jin Kim
(Molecular-Level Interface Research Center
Center for Cell-Encapsulation Research)
- Hyung-Kyu Lim
(Graduate School of Energy Environment Water Sustainability (EEWS))
- Kyungtae Kang
(Molecular-Level Interface Research Center
Center for Cell-Encapsulation Research)
- Sung Hyun Yoo
(Molecular-Level Interface Research Center)
- Jintaek Gong
(Molecular-Level Interface Research Center)
- Eunyoung Yoon
(Molecular-Level Interface Research Center)
- Juno Lee
(Molecular-Level Interface Research Center
Center for Cell-Encapsulation Research)
- Insung S. Choi
(Molecular-Level Interface Research Center
Center for Cell-Encapsulation Research)
- Hyungjun Kim
(Graduate School of Energy Environment Water Sustainability (EEWS))
- Hee-Seung Lee
(Molecular-Level Interface Research Center)
Abstract
The design of stimuli-responsive self-assembled molecular systems capable of undergoing mechanical work is one of the most important challenges in synthetic chemistry and materials science. Here we report that foldectures, that is, self-assembled molecular architectures of β-peptide foldamers, uniformly align with respect to an applied static magnetic field, and also show instantaneous orientational motion in a dynamic magnetic field. This response is explained by the amplified anisotropy of the diamagnetic susceptibilities as a result of the well-ordered molecular packing of the foldectures. In addition, the motions of foldectures at the microscale can be translated into magnetotactic behaviour at the macroscopic scale in a way reminiscent to that of magnetosomes in magnetotactic bacteria. This study will provide significant inspiration for designing the next generation of biocompatible peptide-based molecular machines with applications in biological systems.
Suggested Citation
Sunbum Kwon & Beom Jin Kim & Hyung-Kyu Lim & Kyungtae Kang & Sung Hyun Yoo & Jintaek Gong & Eunyoung Yoon & Juno Lee & Insung S. Choi & Hyungjun Kim & Hee-Seung Lee, 2015.
"Magnetotactic molecular architectures from self-assembly of β-peptide foldamers,"
Nature Communications, Nature, vol. 6(1), pages 1-7, December.
Handle:
RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms9747
DOI: 10.1038/ncomms9747
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