Fast Light‐Driven Curling Actuation Based on Agar‐Chlorophyll Film DOI
Hao Wang, Jiwei Jiang,

Yunyu Sun

et al.

ChemistrySelect, Journal Year: 2025, Volume and Issue: 10(17)

Published: April 28, 2025

Abstract The advanced sensing and driving capabilities of soft actuators have been driven by a range modern society's intelligent requirements. However, many traditional do not account for biocompatibility are challenging to decompose naturally, leading significant issues related resource waste environmental pollution. Here, promising light‐driven curling actuator with excellent degradation performance is reported in this paper. This environmentally friendly film made agar chlorophyll using solution mixing spin coating method. resulting has the Janus structure responds quickly near infrared light (NIR) speed 1 cm −1 2 s due uneven stress distribution caused inhomogeneous thermal expansion. Interestingly, agar‐chlorophyll remote control self‐degradation functions. As proof‐of‐concept application, circuit switches grabbers based on developed enable only remotely switch but also item transport control. Meanwhile, can be degraded soil 10 days without causing We believe biocompatible proposed paper provide new insights development robots other artificial intelligence devices.

Language: Английский

Immobilization of strontium aluminate nanoparticles into electrospun nanofibrous membrane of nanocrystalline cellulose-reinforced polysulfone as security encoding pattern to combat forgery DOI
Ghadah M. Al‐Senani,

Khulood A. Abu Al‐Ola,

Salhah D. Al‐Qahtani

et al.

European Polymer Journal, Journal Year: 2024, Volume and Issue: 215, P. 113194 - 113194

Published: June 5, 2024

Language: Английский

Citations

4
Fast Light‐Driven Curling Actuation Based on Agar‐Chlorophyll Film DOI
Hao Wang, Jiwei Jiang,

Yunyu Sun

et al.

ChemistrySelect, Journal Year: 2025, Volume and Issue: 10(17)

Published: April 28, 2025

Abstract The advanced sensing and driving capabilities of soft actuators have been driven by a range modern society's intelligent requirements. However, many traditional do not account for biocompatibility are challenging to decompose naturally, leading significant issues related resource waste environmental pollution. Here, promising light‐driven curling actuator with excellent degradation performance is reported in this paper. This environmentally friendly film made agar chlorophyll using solution mixing spin coating method. resulting has the Janus structure responds quickly near infrared light (NIR) speed 1 cm −1 2 s due uneven stress distribution caused inhomogeneous thermal expansion. Interestingly, agar‐chlorophyll remote control self‐degradation functions. As proof‐of‐concept application, circuit switches grabbers based on developed enable only remotely switch but also item transport control. Meanwhile, can be degraded soil 10 days without causing We believe biocompatible proposed paper provide new insights development robots other artificial intelligence devices.

Language: Английский

Citations

0