Smart mechanoluminescent phosphors: a review of strontium‐aluminate‐based materials, properties, and their advanced application technologies
Mechanoluminescence, a smart luminescence phenomenon in which light energy is directly
produced by a mechanical force, has recently received significant attention because of its …
produced by a mechanical force, has recently received significant attention because of its …
Integrated self‐powered sensors based on 2D material devices
Z Huo, Y Wei, Y Wang, ZL Wang… - Advanced Functional …, 2022 - Wiley Online Library
With the development of the Internet of Things, there is an increasing need for clean energy
and large‐scale sensory systems. Triboelectric/piezoelectric nanogenerators …
and large‐scale sensory systems. Triboelectric/piezoelectric nanogenerators …
Wearable hybrid device capable of interactive perception with pressure sensing and visualization
A wearable interactive device that can synchronously detect and visualize pressure, stimuli
will supplement easily identifiable in situ signals with conventional sensing that outputs only …
will supplement easily identifiable in situ signals with conventional sensing that outputs only …
Printable, flexible, breathable and sweatproof bifunctional sensors based on an all-nanofiber platform for fully decoupled pressure–temperature sensing application
Flexible bifunctional sensors that mimic the function of human skin are essential as they
provide critical interacting information with human and environment for intelligentization …
provide critical interacting information with human and environment for intelligentization …
[HTML][HTML] Mechanoluminescent-triboelectric bimodal sensors for self-powered sensing and intelligent control
Self-powered flexible devices with skin-like multiple sensing ability have attracted great
attentions due to their broad applications in the Internet of Things (IoT). Various methods …
attentions due to their broad applications in the Internet of Things (IoT). Various methods …
Bioinspired chromotropic ionic skin with in‐plane strain/temperature/pressure multimodal sensing and ultrahigh stimuli discriminability
Electronic skins (e‐skins) mimic multimodal sensing capabilities of various tactile receptors
in natural skin. Herein, a stretchable chromotropic ionic skin is rationally designed to …
in natural skin. Herein, a stretchable chromotropic ionic skin is rationally designed to …
Mechanochromic optical/electrical skin for ultrasensitive dual-signal sensing
Following earlier research efforts dedicated to the realization of multifunctional sensing,
recent developments of artificial skins endeavor to go beyond human sensory functions by …
recent developments of artificial skins endeavor to go beyond human sensory functions by …
Flexible optoelectronic multimodal proximity/pressure/temperature sensors with low signal interference
Multimodal tactile sensors are a crucial part of intelligent human‐machine interaction and
collaboration. Simultaneous detection of proximity, pressure, and temperature on a single …
collaboration. Simultaneous detection of proximity, pressure, and temperature on a single …
Soft Robotic‐Adapted Multimodal Sensors Derived from Entirely Intrinsic Self‐Healing and Stretchable Cross‐Linked Networks
X Dai, Y Wu, Q Liang, J Yang, LB Huang… - Advanced Functional …, 2023 - Wiley Online Library
Flexible sensing technologies that play a pivotal role in endowing robots with detection
capabilities and monitoring their motions are impulsively desired for intelligent robotics …
capabilities and monitoring their motions are impulsively desired for intelligent robotics …
Deep-red to NIR mechanoluminescence in centrosymmetric perovskite MgGeO3: Mn2+ for potential dynamic signature anti-counterfeiting
Developing deep-red to near infrared (NIR) materials with multi-mode luminescence is
challenging, which has promising utilization in various applications such as stress sensing …
challenging, which has promising utilization in various applications such as stress sensing …