Conducting Shrinkable Nanocomposite Based on Au-Nanoparticle Implanted Plastic Sheet: Tunable Thermally Induced Surface Wrinkling

Greco Francesco; Bellacicca Andrea; Gemmi Mauro; Cappello Valentina; Mattoli Virgilio; Milani Paolo

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Conducting Shrinkable Nanocomposite Based on Au-Nanoparticle Implanted Plastic Sheet: Tunable Thermally Induced Surface Wrinkling

机译：基于金纳米粒子植入塑料片的可收缩纳米复合材料：可调节的热诱导表面起皱

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A thermally shrinkable and conductive nanocomposite material is prepared by supersonic cluster beam implantation (SCBI) of neutral Au nanoparticles (Au NPs) into a commercially available thermo-retractable polystyrene (PS) sheet. Micronanowrinkling is obtained during shrinking, which is studied by means of SEM, TEM and AFM imaging. Characteristic periodicity is determined and correlated with nanoparticle implantation dose, which permits us to tune the topographic pattern. Remarkable differences emerged with respect to the well-known case of wrinkling of bilayer metal-polymer. Wrinkled composite surfaces are characterized by a peculiar multiscale structuring that promises potential technological applications in the field of catalytic surfaces, sensors, biointerfaces, and optics, among others.

机译：通过将中性Au纳米粒子（Au NPs）的超声簇束注入（SCBI）到可商购的热缩聚苯乙烯（PS）片材中来制备可热收缩且导电的纳米复合材料。在收缩过程中获得微缩皱纹，可通过SEM，TEM和AFM成像进行研究。确定特征周期性并与纳米粒子植入剂量相关联，这允许我们调整地形图。在双层金属聚合物起皱的公知情况下出现了显着差异。起皱的复合材料表面的特征是独特的多尺度结构，有望在催化表面，传感器，生物界面和光学等领域中获得潜在的技术应用。

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《ACS applied materials & interfaces》 |2015年第13期|共6页
作者
Greco Francesco; Bellacicca Andrea; Gemmi Mauro; Cappello Valentina; Mattoli Virgilio; Milani Paolo;
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正文语种 eng
中图分类化学工业;
关键词
surface wrinkling; metal NPs; implantation; nanocomposite; pattern; shrink; buckling;

机译：表面起皱;金属纳米颗粒;注入;纳米复合材料;图案;收缩;屈曲;

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1. Conducting Shrinkable Nanocomposite Based on Au-Nanoparticle Implanted Plastic Sheet: Tunable Thermally Induced Surface Wrinkling [J] . Greco Francesco, Bellacicca Andrea, Gemmi Mauro, ACS applied materials & interfaces . 2015,第13期

机译：基于金纳米粒子植入塑料片的可收缩纳米复合材料：可调节的热诱导表面起皱
2. Superhydrophobic nanocomposite coatings with photoinitiated three-dimensional networks based on reactive graphene nanosheet-induced self-wrinkling patterned surfaces [J] . Feng Yefeng, Peng Cheng, Li Yandong, Journal of Colloid and Interface Science . 2019,第期

机译：基于反应石墨烯纳米型诱导的自皱图案表面的超疏水纳米复合材料涂层具有光灭绝的三维网络
3. Thermal-shrinking-induced ring-patterned boron nitride wrinkles on carbon fibers [J] . Tan Yinlong, Yan Jia, Chu Zengyong Carbon: An International Journal Sponsored by the American Carbon Society . 2019,第期

机译：碳纤维上的热收缩诱导的环状氮化硼皱折
4. UNDERSTANDING THERMALLY INDUCED WRINKLING IN DECORATIVE FILM LAMINATED SHEETS [C] . M. Mazhary, K.E. Nielsen, F.A. Brandvs, Annual technical conference of the Society of Plastics Engineers;ANTEC 2011 . 2011

机译：了解装饰性薄膜层压板中的热诱导皱纹
5. Shrink-Induced Wrinkled Structures for Enhanced Fluorescence Sensing. [D] . Sharma, Himanshu. 2014

机译：收缩诱导的皱纹结构，可增强荧光感应。
6. Shrink-Induced Superhydrophobic and Antibacterial Surfaces in Consumer Plastics [O] . Lauren R. Freschauf, Jolie McLane, Himanshu Sharma, -1

机译：收缩诱导和超疏水表面抗菌消费塑料
7. Shrink-induced superhydrophobic and antibacterial surfaces in consumer plastics. [O] . Lauren R Freschauf, Jolie McLane, Himanshu Sharma, 2012

机译：消费塑料中收缩诱导的超疏水和抗菌表面。

Conducting Shrinkable Nanocomposite Based on Au-Nanoparticle Implanted Plastic Sheet: Tunable Thermally Induced Surface Wrinkling

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