Fish‐Like Dual‐Bubbling Nanostructured Membranes‐Based Actuation System for Enhanced Underwater Sensing DOI Open Access

Xinrui Liu,

Shan Li, Peng Xiao

et al.

Advanced Functional Materials, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 7, 2025

Abstract Underwater sensing is crucial for sea exploration and guiding underwater vehicles. Artificial flexible or soft sensors with high sensitivity environmental adaptability can be one promising alternative. However, the current may experience sharp decline of sensory performance attributed to heavy water pressure. Here, inspired by structure swimming bladder, a fish‐like dual‐bubbling membrane developed undiminished designing integrated actuation system mechanical sensing. The includes morphing layer elastomer 3D harder embedded carbon nanotubes (CNTs), capable detecting fluctuations as small 5 Pa at 8 kPa pressure maintaining stable up 18 kPa. rational design modular‐actuation (MASS) allows adjustment capability handle higher applied Furthermore, designed sensor into vehicle sensitively detect navigation behaviors further monitor external stimuli even under 1.6 m condition. proposed principle expected provide guidance biomimetic actuating systems.

Language: Английский

Island-Bridge Microcracks with Nanofiber and Carbon Nanotube Composites for High-performance Flexible Strain Sensors DOI
Kuo‐Shyan Lin,

Xin Gou,

Wei Bing Luo

et al.

Composites Part B Engineering, Journal Year: 2025, Volume and Issue: unknown, P. 112366 - 112366

Published: March 1, 2025

Language: Английский

Citations

2
Implantable physical sensors for in vivo organ monitoring DOI Creative Commons
Xuan Li, Xinghao Huang, Liheng Yang

et al.

Med-X, Journal Year: 2025, Volume and Issue: 3(1)

Published: Jan. 8, 2025

Abstract Implantable sensors can provide access to accurate, continuous, and minimally invasive monitoring of physiological signals from internal organs tissues, thereby facilitating timely diagnosis, closed-loop intervention, advanced health management. Among the various types implantable sensors, those capable measuring physical parameters–such as temperature, force, flow–are particularly important due their ability monitor conditions critical nearly all insights into a wide range conditions. This review presents recent progress in four key sensors: strain pressure temperature flow sensors. It covers engineering principles, design considerations, vivo performances, clinical relevance. The also addresses challenges future opportunities development such flexibility stretchability, biocompatibility, long-term stability, translation these sensing technologies bench clinic. Graphical

Language: Английский

Citations

1
Strong and anti-swelling nanofibrous hydrogel composites inspired by biological tissue for amphibious motion sensors DOI
Zheng Ren, Fang Guo,

Yong Wen

et al.

Materials Horizons, Journal Year: 2024, Volume and Issue: 11(22), P. 5600 - 5613

Published: Jan. 1, 2024

Nanofibrous hydrogel composites with exceptional mechanical, electrical, and anti-swelling properties, enabling amphibious motion sensing, underwater communication, biological monitoring.

Language: Английский

Citations

6
Fish‐Like Dual‐Bubbling Nanostructured Membranes‐Based Actuation System for Enhanced Underwater Sensing DOI Open Access

Xinrui Liu,

Shan Li, Peng Xiao

et al.

Advanced Functional Materials, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 7, 2025

Abstract Underwater sensing is crucial for sea exploration and guiding underwater vehicles. Artificial flexible or soft sensors with high sensitivity environmental adaptability can be one promising alternative. However, the current may experience sharp decline of sensory performance attributed to heavy water pressure. Here, inspired by structure swimming bladder, a fish‐like dual‐bubbling membrane developed undiminished designing integrated actuation system mechanical sensing. The includes morphing layer elastomer 3D harder embedded carbon nanotubes (CNTs), capable detecting fluctuations as small 5 Pa at 8 kPa pressure maintaining stable up 18 kPa. rational design modular‐actuation (MASS) allows adjustment capability handle higher applied Furthermore, designed sensor into vehicle sensitively detect navigation behaviors further monitor external stimuli even under 1.6 m condition. proposed principle expected provide guidance biomimetic actuating systems.

Language: Английский

Citations

0