Passively driven three-dimensional microfliers inspired by wind-dispersed seeds

SONG Jizhou

doi:10.6052/1000-0992-21-055

Volume 52 Issue 1

Mar. 2022

Turn off MathJax

Article Contents

Article Navigation > Advances in Mechanics > 2022 > 52(1): 196-200

Song J Z. Passively driven three-dimensional microfliers inspired by wind-dispersed seeds. Advances in Mechanics, 2022, 52(1): 196-200 doi: 10.6052/1000-0992-21-055

Citation:

Song J Z. Passively driven three-dimensional microfliers inspired by wind-dispersed seeds. Advances in Mechanics, 2022, 52(1): 196-200 doi: 10.6052/1000-0992-21-055

Song J Z. Passively driven three-dimensional microfliers inspired by wind-dispersed seeds. Advances in Mechanics, 2022, 52(1): 196-200 doi: 10.6052/1000-0992-21-055

Citation:

Song J Z. Passively driven three-dimensional microfliers inspired by wind-dispersed seeds. Advances in Mechanics, 2022, 52(1): 196-200 doi: 10.6052/1000-0992-21-055

PDF( 1210 KB)

Passively driven three-dimensional microfliers inspired by wind-dispersed seeds

doi: 10.6052/1000-0992-21-055

SONG Jizhou^,

Department of Engineering Mechanics, Zhejiang University, Hangzhou 310027, China
Key Laboratory of Soft Machine and Smart Devices of Zhejiang Province, Zhejiang University, Hangzhou 310027, China
State Key Laboratory of Fluid Power and Mechatronic Systems, Zhejiang University, Hangzhou 310027, China

More Information

Corresponding author: jzsong@zju.edu.cn
Received Date: 2021-11-12
Accepted Date: 2021-12-15

Available Online: 2021-12-24

Publish Date: 2022-03-21

Abstract

Abstract

By mimicking wind-dispersed seeds, researchers have developed a class of passively driven microfliers, which can reduce the flight power consumption and achieve a long-time flight.
- wind-dispersed seed,
- microflier,
- mechanically guided 3D assembly

FullText(HTML)

References(9)

References

[1]	Cummins C, Seale M, Macente A, Certini D, Mastropaolo E, Viola I M, Nakayama N, 2018. A separated vortex ring underlies the flight of the dandelion. Nature, 562: 414-418.
[2]	Kim B H, Li K, Kim J T, Park Y, Jang H, Wang X, Xie Z, Won S M, Yoon H J, Lee G, et al. 2021. Three-dimensional electronic microfliers inspired by wind-dispersed seeds. Nature, 597: 503-510.
[3]	Lentink D, Dickson W B, van Leeuwen J L, Dickinson M H, 2009. Leading-edge vortices elevate lift of autorotating plant seeds. Science, 324: 1438-1440.
[4]	Luo H, Wang C, Linghu C, Yu K, Wang C, Song J, 2019. Laser-driven programmable non-contact transfer printing of objects onto arbitrary receivers via an active elastomeric microstructured stamp. National Science Review, 7: 296-304.
[5]	Nathan R, Katul G G, Horn H S, Thomas S M, Oren R, Avissar R, Pacala S W, Levin S A, 2002. Mechanisms of long-distance dispersal of seeds by wind. Nature, 418: 409-413
[6]	Wood R J, 2008. The first takeoff of a biologically inspired at-scale robotic insect. IEEE Transactions on Robotics, 24: 341-347.
[7]	Wang C, Linghu C, Nie S, Li C, Lei Q, Tao X, Zeng Y, Du Y, Zhang S, Yu K, et al. 2020. Programmable and scalable transfer printing with high reliability and efficiency for flexible inorganic electronics. Science Advances, 6: eabb2393.
[8]	Xu S, Yan Z, Jang K I, Huang W, Fu H, Kim J, Wei Z, Flavin M, McCracken J, Wang R, et al. 2015. Assembly of micro/nanomaterials into complex, three-dimensional architectures by compressive buckling. Science, 347: 154-159.
[9]	Zhang Y, Zhang F, Yan Z, Ma Q, Li X, Huang Y, Rogers J A, 2017. Printing, folding and assembly methods for forming 3D mesostructures in advanced materials. Nature Reviews Materials, 2: 17019.