Universal Magnetic‐Conductive Interfaces Enabling Reversible Interconnections in Fiber Electronics

Small, Год журнала: 2025, Номер unknown

Опубликована: Апрель 13, 2025

Abstract Fiber electronics have gained significant attention for their seamless integration into textiles, offering enhanced flexibility, breathability, and wearability. However, conventional circuit assembly methods fiber devices often rely on rigid irreversible connections, such as silver conductive adhesives, which impede essential modifications in electronic textiles like energy module upgrades, sensor replacements, damage repair. Here, a universal magnetic‐conductive (MC) interface that facilitates robust, reversible interconnections is presented. Fabricated by sequentially depositing magnetic interlayer sheath electrode ends using coating die, this compatible with diverse devices. Upon close proximity, the MC interfaces magnetically attract establish stable electrical pathway spontaneously (<40 ms), delivering conductivity comparable to cured paste. Remarkably, connection retains its performance over 10 000 connect‐disconnect cycles, mechanical swinging operations under environmental conditions. The versatility of further demonstrated creating detachable fabric power bank wearable integrating removable signal‐processing textile on‐demand electrocardiogram monitoring rats. Overall, innovation establishes universal, scalable platform electronics, paving way next‐generation customizable

Язык: Английский

From Flexible Sensing Electronics to Closed‐Loop Bladder Capacity System for Neurogenic Bladder

Advanced Materials Technologies, Год журнала: 2025, Номер unknown

Опубликована: Апрель 17, 2025

Abstract Spinal cord injuries often result in paralysis or paraplegia, the extent of which depends on injury location. A common consequence is loss voluntary urination control, leading to symptoms such as urinary retention incontinence, collectively termed neurogenic bladder (NGB). While catheterization a prevalent intervention modern urological care for these patients, it usually causes complications like tract infections and stones. With advent flexible electronics, wearable implantable systems based electronics have brought new solutions field. Advances spurred development innovative devices aid NGB patients. This paper reviews current treatment modalities NGB, exploring challenges drawbacks existing methods. Furthermore, provides insights into progress potential sensors closed‐loop capacity sensor treatment, aiming highlight their research advances, limitations, future prospects.

Язык: Английский

A Fully Printable and Integrated System with Long-Term Stability for Versatile and Multimodal Perspiration Tracking

Nano Letters, Год журнала: 2024, Номер 24(47), С. 15092 - 15100

Опубликована: Окт. 25, 2024

Real-time and continuous monitoring of physiological status via noninvasive sweat sensing shows promise for personalized healthcare fitness management. However, the largely varied perspiration rates in different body statuses introduce challenges effective collection accurate sensing. Herein, a fully printable strategy was developed to realize integrated patches wireless biomarker levels with desirable stability versatility. The calcium sensors modified ion-selective membranes displayed an ultrawide linear range 0.1-100 mM long-term minimized drift down 0.083 mV/h around 40 h. Moreover, microfluidic channels versatile configurations were capable minimum rate 0.5 μL/min large storage volume up 200 μL. as-proposed platforms provide high compatibility sensor integration achieve tracking comprehensive health monitoring.

Язык: Английский