Plasma-chemical surface functionalization of flexible substrates at atmospheric pressure

Nobuyuki Zettsu; Hiroto Itoh; Kazuya Yamamura

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Plasma-chemical surface functionalization of flexible substrates at atmospheric pressure

机译：大气压下柔性基板的等离子体化学表面功能化

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摘要

We demonstrated here fascicle surface functionalization of poly(tetrafluoroethylene) [PTFE] sheet through an atmospheric pressure plasma liquid deposition [APPLD] technique to design the interface for improvement of copper plated layer adhesion. We found that radiation with atmospheric pressure plasma to the PTFE sheet covered with thin liquid film, containing both an ion trapping polymer and copper ion (Cu~(2+)), simultaneously brought about the direct polymer grafting onto the PTFE surface and Cu~(2+) ion reduction to metallic Cu. The treated surface was characterized by water contact angle measurement, X-ray photoelectron spectroscopy, and atomic force microscopy.

机译：我们在这里通过大气压等离子体液相沉积[APPLD]技术演示了聚四氟乙烯[PTFE]片的束表面功能化，以设计界面来改善镀铜层的附着力。我们发现，用大气压等离子体辐射到覆盖有液膜的聚四氟乙烯片材上时，该片材既包含离子捕获聚合物又包含铜离子（Cu〜（2+）），同时将直接聚合物接枝到PTFE表面和Cu〜（2+）离子还原为金属Cu。通过水接触角测量，X射线光电子能谱和原子力显微镜来表征处理过的表面。

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来源
《Thin Solid Films》 |2008年第19期|p.6683-6687|共5页
作者
Nobuyuki Zettsu; Hiroto Itoh; Kazuya Yamamura;
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作者单位

Research Center for Ultra-Precision Science and Technology, Graduate School of Engineering, Osaka University, Yamadaoka, Suita Osaka 565-0871, Japan;

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原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
surface functionalization; atmospheric pressure plasma; poly(tetrafluoroethylene); graft polymerization; nanoclusters; electroless deposition;

机译：表面功能化;常压等离子体;聚四氟乙烯;接枝聚合;纳米簇;化学沉积;

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1. Enhanced surface hardness of flexible polycarbonate substrates using plasma-polymerized organosilicon oxynitride films by air plasma jet under atmospheric pressure [J] . Lin Y.-S., Weng M.-S., Chung T.-W., Surface & Coatings Technology . 2011,第13a14期

机译：在大气压力下通过空气等离子体喷射，使用等离子体聚合的有机氮氧化硅薄膜提高了柔性聚碳酸酯基板的表面硬度
2. Maskless atmospheric pressure PECVD of SiO_x films on both planar and nonplanar surfaces using a flexible atmospheric microplasma generation device [J] . Wang Tao, Liu Jingquan, Shi Liping, Plasma processes and polymers . 2020,第1期

机译：使用柔性大气微等离子体生成装置在平面和非平面表面上对SiO_x膜进行无掩模大气压PECVD
3. Comparison of Atmospheric-Pressure Plasma versus Low-Pressure RF Plasma for Surface Functionalization of PTFE for Biomedical Applications [J] . Christian Sarra-Bournet, Stephane Turgeon, Diego Mantovani, Plasma processes and polymers . 2006,第6a7期

机译：用于生物医学应用的PTFE表面功能化的常压等离子体与低压RF等离子体的比较
4. Surface Activation of Rigid and Flexible Substrates for Thin Film Photovoltaics using Atmospheric Pressure Plasma [C] . F. Lisco, A. Shaw, A. Wright, IEEE Photovoltaic Specialist Conference . 2017

机译：用大气压等离子体对薄膜光伏晶体和柔性基板的表面活化
5. Localized surface functionalization with atmospheric-pressure microplasma jet for cell-on-a-chip applications. [D] . Wang, Chengyang. 2016

机译：大气压微等离子体射流用于单片电池应用的局部表面功能化。
6. Rapid and selective surface functionalization of the membrane for high efficiency oil-water separation via an atmospheric pressure plasma process [O] . Yong Sung You, Seongchan Kang, Rodolphe Mauchauffé, -1

机译：膜的快速选择性表面功能化用于通过大气压等离子体工艺进行高效油水分离
7. Physicochemical Studies on the Surface of Polyamide 6.6 Fabrics Functionalized by DBD Plasmas Operated at Atmospheric and Sub-Atmospheric Pressures [O] . Larissa Nascimento, Fernando Gasi, Richard Landers, 2020

机译：DBD等离子体在大气和亚大气压下官能化的聚酰胺6.6织物表面的物理化学研究
8. Surface Specific Phosphate Cleavage of a Substrate Functionalized Vesicular Surfactant [R] . Moss, R. A., Swarup, S. 1986

机译：基质功能化囊泡表面活性剂的表面特异性磷酸盐裂解

Plasma-chemical surface functionalization of flexible substrates at atmospheric pressure

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