Abstract
In order to prepare flexible glass cover sheet materials suitable for space solar cells, fluorinated diamine 2,2’-bistrifluoromethyl benzidine (TFDB) and fluorinated dianhydride 4,4’ (hexafluoroisopropyl) diphthalic dianhydride (6FDA) as the monomer, polyimide (PI)/SiO2 composite film was synthesized by in situ polymerization, and the influence of coupling agent and SiO2 nanoparticle content on the film structure and properties was studied. The results show that PI synthesized from fluorine-containing monomers has better light transmittance, and the highest transmittance can reach 91.4%. The average visible light transmittance of the composite film decreases with the increase of SiO2 content, and the transmittance of the film decreases less in the high-wavelength region and greatly decreases in the low-wavelength region. The tensile strength and elastic modulus of PI/SiO2 composite film increase with the increase of SiO2 content, first increase and then decrease, reaching the maximum when the content is 10%; while the elongation at break of the composite film gradually increases with the increase of SiO2 content reduce. The thermal stability of PI/SiO2 composite film increases with the increase of SiO2 content. The doping of nano-SiO2 significantly suppresses the influence of irradiation on the mechanical properties of the film.
Highlights
Flexible solar cells need to be protected by glass cover sheets due to the presence of atomic oxygen (AO), ultraviolet rays, various cosmic ray radiation, and micrometeoroids in the space environment
PI/SiO2 nanocomposite films were analyzed by using an Fourier-transform infrared analysis (FT-IR) infrared spectrometer
There is a clear difference at 1000–1100 cm−1 between PI and PI/SiO2 composites films after comparing all the FT-IR spectra
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. With the rapid development of aerospace technology, flexible space solar cells are urgently needed. Flexible solar cells need to be protected by glass cover sheets due to the presence of atomic oxygen (AO), ultraviolet rays, various cosmic ray radiation, and micrometeoroids in the space environment. The glass cover sheet of the flexible solar cell should possess sufficient flexibility and good mechanical properties, high light transmittance, resistance to ultraviolet rays and various cosmic rays. It is urgent to find an alternative material for space solar cell glass cover sheets with the above comprehensive performances
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