Steel and Composite Structures

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Chaotic phenomena in the organic solar cell under the impact of small particles

  • Jing, Pan (Department of Materials and Chemical Engineering, Taiyuan University) ;
  • Zhe, Jia (Department of Materials and Chemical Engineering, Taiyuan University) ;
  • Guanghua, Zhang (Department of Intelligence and Automation, Taiyuan University)
  • Received : 2021.07.22
  • Accepted : 2022.12.06
  • Published : 2023.01.10
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Abstract

Organic solar cells utilized natural polymers to convert solar energy to electricity. The demands for green energy production and less disposal of toxic materials make them one of the interesting candidates for replacing conventional solar cells. However, the different aspects of their properties including mechanical strength and stability are not well recognized. Therefore, in the present study, we aim to explore the chaotic responses of these organic solar cells. In doing so, a specific type of organic solar cell constructed from layers of material with different thicknesses is considered to obtain vibrational and chaotic responses under different boundaries and initial conditions. A square plate structure is examined with first-order shear deformation theory to acquire the displacement field in the laminated structure. The bounding between different layers is considered to be perfect with no sliding and separation. On the other hand, nonlocal elasticity theory is engaged in incorporating the structural effects of the organic material into calculations. Hamilton's principle is adopted to obtain governing equations with regard to boundary conditions and mechanical loadings. The extracted equations of motion were solved using the perturbation method and differential quadrature approach. The results demonstrated the significant effect of relative glass layer thickness on the chaotic behavior of the structure with higher relative thickness leading to less chaotic responses. Moreover, a comprehensive parameter study is presented to examine the effects of nonlocality and relative thicknesses on the natural frequency of square organic solar cell structure.

Keywords

Acknowledgement

This work was supported by Ministry of Education Collaborative Education Project ("Study on Talent Cultivation Model of new energy materials and devices").

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