Yunze Wen scite author profile

The capability of cellulose microfibrils to elicit directionality by anisotropically restricting the deformation of amorphous biogenic matrices is central to the motility of many plants as motoric and shape‐restoring elements. Herein, an approach is described to control directionality of artificial composite actuators that mimic the hygroinduced motion of composite plant tissues such as the opening of seed pods, winding of plant tendrils, and burial of seed awns. The actuators are designed as bilayer structures where single or double networks of buried parallel glass fibers reinforce the composite. By anisotropically restricting the expansion along certain directions they also effectively direct the mechanical reconfiguration, thereby determining the mechanical effect. A mathematical model is developed to quantify the kinematic response of fiber‐reinforced actuators. Within a broader context, the results of this study provide means for control over mechanical deformation of artificial dynamic elements that mimic the oriented fibrous architectures in biogenic motoric elements.

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Comparative study for microcystin-LR sorption onto biochars produced from various plant- and animal-wastes at different pyrolysis temperatures: Influencing mechanisms of biochar properties

Cao

Yuan

et al. 2018

Bioresource Technology

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The domain of unknown function 4005 (DUF4005) in an Arabidopsis IQD protein functions in microtubule binding

Huang

Wen

et al. 2021

Journal of Biological Chemistry

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Distribution laws of partial discharge and surface flashover of insulation cushion blocks for transformers

Gao

Zhou

et al. 2022

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Yunze Wen

Directed Motility of Hygroresponsive Biomimetic Actuators

Comparative study for microcystin-LR sorption onto biochars produced from various plant- and animal-wastes at different pyrolysis temperatures: Influencing mechanisms of biochar properties

The domain of unknown function 4005 (DUF4005) in an Arabidopsis IQD protein functions in microtubule binding

Distribution laws of partial discharge and surface flashover of insulation cushion blocks for transformers

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