2D-WS<sub>2</sub>‑Coated Architectural Modified Cellulose Paper-Based Photosensitive Triboelectric Nanogenerators

2D-WS<sub>2</sub>‑Coated Architectural Modified Cellulose Paper-Based Photosensitive Triboelectric Nanogenerators

The growing demand for sustainable and multifunctional energy harvesting systems has propelled the advancement of hybrid energy harvesting systems. Here, we report a sustainable triboelectric nanogenerator architecture based on cellulose paper coated with two-dimensional (2D) tungsten disulfide (WS&...

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書目詳細資料
主要作者: Sumit Chahal (10668163) (author)
其他作者: Rudresh Kundugolmath (22682201) (author), Satish Laxman Shinde (3113160) (author), Saket Asthana (2258431) (author)
出版: 2025
主題:
Biophysics
Microbiology
Cell Biology
Genetics
Molecular Biology
Biotechnology
Ecology
Science Policy
Plant Biology
Computational Biology
Space Science
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
Physical Sciences not elsewhere classified
powered wearable electronics
phase exfoliation method
peak power density
optical energy harvesting
device also achieved
combined finger tapping
best hybrid performance
assisted energy harvesting
∼ 98 mw
fabricated using ws
elliptical design showed
cellulose paper coated
visible light exposure
infrared light exposure
2 </ sub
cellulose paper
visible light
∼ 2
nir light
work demonstrates
uniformly deposited
tungsten disulfide
tribopositive layer
tribonegative counterpart
synergistic effects
simultaneous mechanical
simple liquid
significantly higher
scalable strategy
photogeneration mechanisms
optoelectronic devices
integrate mechanical
higher output
growing demand
generating 170
flexible nanogenerators
decay times
9 v
730 nm
5 v
2 v
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總結:The growing demand for sustainable and multifunctional energy harvesting systems has propelled the advancement of hybrid energy harvesting systems. Here, we report a sustainable triboelectric nanogenerator architecture based on cellulose paper coated with two-dimensional (2D) tungsten disulfide (WS<sub>2</sub>) nanosheets for simultaneous mechanical and light-assisted energy harvesting. The WS<sub>2</sub> nanosheets were synthesized by a simple liquid-phase exfoliation method and uniformly deposited on cellulose paper. Three modified device geometries, hinge, zigzag, and elliptical, were fabricated using WS<sub>2</sub>-coated paper as the tribopositive layer and Kapton as the tribonegative counterpart. The elliptical design showed the best hybrid performance, generating 170.2 V under combined finger tapping and near-infrared (730 nm) illumination, significantly higher than 150.5 V under visible light and 97.9 V in the dark. The device also achieved a peak power density of ∼98 mW m<sup>–2</sup>. Furthermore, the WS<sub>2</sub>-coated paper exhibited broadband photodetection with rise/decay times of ∼2.86/2.87 s under visible light exposure and ∼1.92/1.90 s under near-infrared light exposure. This higher output under NIR light is attributed to the synergistic effects of the photothermal and photogeneration mechanisms in the WS<sub>2</sub> material. This work demonstrates a low-cost and scalable strategy for flexible nanogenerators that integrate mechanical and optical energy harvesting, paving the way for self-powered wearable electronics and optoelectronic devices.

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