Flexible self-powered
multifunctional sensing systems provide a
promising direction for the development of wearable electronics. Although
increased efforts have been devoted to developing self-powered integrated
devices, the development of flexible and adaptable sensing systems
with miniaturized stable power supplies is highly desirable yet greatly
challenging. Herein, an ambient moisture-induced self-powered wearable
sensing system was fabricated by integrating a porous polydopamine
layer with a hydroxy group gradient (called g-PDA) based moisture-enabled
power generator and a flexible pressure sensor. Due to the large amount
of gradient-distributed free cations (H+) and locally confined
anions produced in wide electrode spaces during hydration of the thin
porous g-PDA film, the moisture-induced potential and effective output
power density of the g-PDA-based power generator rapidly reaches up
to 0.52 V and 0.246 mW cm–2, respectively. Importantly,
the voltage output within 120 s only has 6% change, and a continuously
open-circuit voltage can be maintained after 1900 s of attenuation,
which is a breakthrough for the duration of humidity generation. Finally,
a self-powered wearable multifunctional sensing system has been demonstrated
to be able to provide real-time monitoring of human physiological
signals, without an external power supply, which opens new opportunities
for future self-powered multifunctional sensing systems.
Age structure, educational level and economic situation of farmers living in Shennongjia National Nature Reserve, Central China, were analyzed. Results showed that the population will increase steadily in the future and that the educational level is very low on the whole. Among people above the school entrance age (seven years old), only 36% had the opportunity to receive highschool education and those who received college education occupied just about 1%.
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