Huayong Yang scite author profile

In the past decade, the global industry and research attentions on intelligent skin-like electronics have boosted their applications in diverse fields including human healthcare, Internet of Things, human–machine interfaces, artificial intelligence and soft robotics. Among them, flexible humidity sensors play a vital role in noncontact measurements relying on the unique property of rapid response to humidity change. This work presents an overview of recent advances in flexible humidity sensors using various active functional materials for contactless monitoring. Four categories of humidity sensors are highlighted based on resistive, capacitive, impedance-type and voltage-type working mechanisms. Furthermore, typical strategies including chemical doping, structural design and Joule heating are introduced to enhance the performance of humidity sensors. Drawing on the noncontact perception capability, human/plant healthcare management, human–machine interactions as well as integrated humidity sensor-based feedback systems are presented. The burgeoning innovations in this research field will benefit human society, especially during the COVID-19 epidemic, where cross-infection should be averted and contactless sensation is highly desired.

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A fully soft, self-powered vibration sensor by laser direct writing

Luo

Yang

et al. 2022

Nano Energy

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Sliding Mode Control with Adaptive Fuzzy Immune Feedback Reaching Law

Sun

Gong

Yang

2019

Int. J. Control Autom. Syst.

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Customized reconstruction of alveolar cleft by high mechanically stable bioactive ceramic scaffolds fabricated by digital light processing

Yin

Hong

et al. 2022

Materials & Design

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Huayong Yang

Keep Healthcare Workers Safe: Application of Teleoperated Robot in Isolation Ward for COVID-19 Prevention and Control

Multifunctional Flexible Humidity Sensor Systems Towards Noncontact Wearable Electronics

A fully soft, self-powered vibration sensor by laser direct writing

Sliding Mode Control with Adaptive Fuzzy Immune Feedback Reaching Law

Customized reconstruction of alveolar cleft by high mechanically stable bioactive ceramic scaffolds fabricated by digital light processing

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