PTFE-Doped CeO2 Films: Synthesis, Characterization and Properties

Journal of Coating Science and Technology Pub Date : 2020-01-08 DOI:10.6000/2369-3355.2019.06.02.1

Y. Taga, K. Nishimura, Y. Hisamatsu

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Abstract

: Multi-functional hybrid films were developed by doping PTFE into CeO 2 by co-sputtering of CeO 2 and PTFE targets. The hybrid films formed on borosilicate glass substrate containing from 5 to 15 vol. % PTFE in CeO 2 showed UV shielding, high indentation hardness, hydrophobicity, optical transmittance in visible light, and high bending crack resistance. Optical properties of 100 nm thick CeO 2 -5 vol. % PTFE film revealed UV light shielding of more than 80 % at 380 nm and visible light transmittance higher than 80 %. Indentation hardness measured under the load of 0.001mN was more than 16,000N/mm 2 of 2.7 times higher than the glass substrate. No crack in the film was observed by bending 1.5 cm in diameter. Furthermore, the hydrophobic surface property was evaluated by the water contact angle to be higher than 90 degrees. Preliminary characterization of the CeO 2 -PTFE film using XPS and XMA revealed that chemical states of F in sputter doped PTFE in CeO 2 can be considered to exist as C-F and Ce-F compounds. On the other hand, chemical states of Ce changed partially from Ce +4 (CeO 2 ) to Ce +3 (Ce 2 O 3 or CeF 3 ) with increasing doped PTFEF in the film. In this rapid communication, we preliminary described the optical, mechanical and chemical properties of newly developed hybrid CeO 2 -PTFE films prepared by sputtering.

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ptfe掺杂CeO2薄膜:合成、表征及性能

:采用ceo2与PTFE靶材共溅射的方法，在ceo2中掺杂PTFE，制备了多功能杂化膜。在含5% ~ 15vol . % PTFE的ceo2硼硅玻璃基板上形成的杂化膜具有紫外线屏蔽、高压痕硬度、疏水性、可见光透光率和高抗弯曲开裂性能。100 nm厚的ceo2 -5 vol. % PTFE薄膜的光学性能表明，在380 nm处紫外线屏蔽率超过80%，可见光透过率高于80%。在0.001mN载荷下测得的压痕硬度大于16000 n /mm 2，是玻璃基板的2.7倍。弯曲直径1.5 cm时，未观察到薄膜开裂。此外，通过水接触角大于90度来评价其疏水表面性能。利用XPS和XMA对ceo2 -PTFE薄膜进行了初步表征，发现在ceo2中溅射掺杂PTFE的F的化学态可以认为是以C-F和Ce-F的形式存在的。另一方面，随着薄膜中PTFEF掺杂量的增加，Ce的化学态部分由Ce +4 (ceo2)转变为Ce +3 (ce2o3或cef3)。本文对溅射法制备的ceo2 -PTFE杂化薄膜的光学、力学和化学性能进行了初步描述。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Coating Science and Technology

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