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3 article(s) from Li, Huan

Simulation of gas sensing with a triboelectric nanogenerator

Kaiqin Zhao,
Hua Gan,
Huan Li,
Ziyu Liu and
Zhiyuan Zhu

Beilstein J. Nanotechnol. 2021, 12, 507–516, doi:10.3762/bjnano.12.41

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Figure 1: Charge flow in a triboelectric nanogenerator.

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Figure 2: Two-dimensional model of a contact separation TENG.

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Figure 3: Simulation diagram for (a) ds = 1 mm and (b) ds = 0.1 mm. (c) Potential difference between the oute...

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Figure 4: Two-dimensional TENG model with (a) isosceles triangle and (b) right-angled triangle TENG model.

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Figure 5: Comparison of shapes. (a) Potential distribution diagram of a rectangular TENG. (b) Potential distr...

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Figure 6: (a) TENG with a gas jet between two triboelectric materials. (b) TENG potential distribution diagra...

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Figure 7: (a) The potential of the TENG varies with distance ds for different sizes of the gas injection area...

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Figure 8: (a) The potential of TENG with different injected gases at (a) ds = 0.1 mm, (b) ds = 0.5 mm, and (c...

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Figure 9: (a) Schematic diagram of an isosceles triangle TENG with injected gases. (b) Simulation of the TENG...

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Full Research Paper

Published 28 May 2021

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Triboelectric nanogenerator based on Teflon/vitamin B1 powder for self-powered humidity sensing

Liangyi Zhang,
Huan Li,
Yiyuan Xie,
Jing Guo and
Zhiyuan Zhu

Beilstein J. Nanotechnol. 2020, 11, 1394–1401, doi:10.3762/bjnano.11.123

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Figure 1: The manufacturing process of the TVB-TENG structure.

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Figure 2: The working mechanism of the TVB-TENG structure.

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Figure 3: (a) The output voltage (matched load of 100 MΩ) and (b) short-circuit current (matched load of 100 ...

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Figure 4: The output voltage sensor feedback at different humidity levels: 40% (a), 50% (b), 60% (c), 70% (d)...

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Figure 5: (a) The output voltage of the TVB-TENG as a function of RH (40–90%). (b) A representative photograp...

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Figure 6: (a) Reversibility of a TVB-TENG-based humidity sensor. (b) The change in luminosity of thirty LEDs ...

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Full Research Paper

Published 11 Sep 2020

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Fracture behaviors of pre-cracked monolayer molybdenum disulfide: A molecular dynamics study

Qi-lin Xiong,
Zhen-huan Li and
Xiao-geng Tian

Beilstein J. Nanotechnol. 2016, 7, 1411–1420, doi:10.3762/bjnano.7.132

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Figure 1: The atomic structure of a defect-free MoS₂ sheet.

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Figure 2: Comparisons of uniaxial tensile stress–strain curve along armchair direction of defect-free MoS₂ sh...

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Figure 3: The top and side views of atomic structures under different uniaxial tension strains along the armc...

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Figure 4: Three types of crack tip configuration with 1nm length: condition A, a Mo atom and two S atoms at t...

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Figure 5: The stress–strain curves along armchair direction of MoS₂ sheet under three crack tip types: condit...

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Figure 6: Comparison of fracture strength of MoS₂ sheet with the crack of 1 nm length between MDS results and...

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Figure 7: The von Mises stress distribution after crack extension for three crack tip types.

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Figure 8: The maximum principal stress distribution after crack extension for three crack tip types.

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Figure 9: The stress–strain curves along armchair direction of MoS₂ sheet with the crack of 1 nm length under...

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Figure 10: The stress–strain curves along armchair direction of MoS₂ sheet with the crack of 1 nm length for d...

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Figure 11: The stress–strain curves along armchair direction of pre-cracked MoS₂ sheet with different crack le...

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Figure 12: Comparison of fracture strength of MoS₂ sheet between MDS results and three continuum fracture mech...

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Figure 13: The stress–strain curves along armchair direction of MoS₂ sheet with different crack angles: β = 0°...

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Figure 14: Comparison of fracture strength of MoS₂ sheet between MDS results and continuum fracture mechanics ...

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Figure 15: The von Mises stress distribution after crack extension for three crack angles.

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Full Research Paper

Published 07 Oct 2016

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