Easy And Versatile Functionalization Of Lithium Niobate Wafers By Hydrophobic Trichlorosilanes

Jonathan Bennes; Sylvain Ballandras; Frederic Cherioux

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Easy And Versatile Functionalization Of Lithium Niobate Wafers By Hydrophobic Trichlorosilanes

机译：疏水性三氯硅烷对铌酸锂晶片的简单而多功能的功能化

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摘要

The functionalization of lithium niobate surface has been successfully obtained by the grafting of trichloro-organosilane derivatives thanks to liquid phase silanization or micro-contact printing. This functionalization has been proved by X-ray photoelectron spectroscopy and Fourier transform infrared spectroscopy. The data show that the stability of the self-assembled monolayer (SAM) film on the trichloro(1H,1H,2H,2H-perfluorooctyl)silane-modified lithium niobate surface is largely due to the formation of a siloxy-niobate (-Si-O-Nb-) bond via a condensation reaction between -Si-Cl and niobate hydroxide (-NbOH). The extremely hydrophobic and stable SAM on lithium niobate could have useful applications in acoustic droplet handling and more generally surface acoustic waves (SAW) device preparation for lab-on-chip devices.

机译：通过液相硅烷化或微接触印刷，通过接枝三氯-有机硅烷衍生物已成功获得了铌酸锂表面的功能化。通过X射线光电子能谱和傅立叶变换红外光谱法已经证明了这种功能化。数据表明，三氯（1H，1H，2H，2H-全氟辛基）硅烷改性铌酸锂表面上的自组装单层（SAM）膜的稳定性主要归因于甲硅烷氧基-铌酸盐（-Si -O-Nb-）通过-Si-Cl与氢氧化铌氢氧化物（-NbOH）之间的缩合反应键合。铌酸锂上的疏水性极强且稳定的SAM可能在声滴处理以及更普遍的用于芯片实验室设备的表面声波（SAW）设备制备中具有有用的应用。

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来源
《Applied Surface Science》 |2008年第5p1期|p.1796-1800|共5页
作者
Jonathan Bennes; Sylvain Ballandras; Frederic Cherioux;
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作者单位

Institut FEMTO-ST, CNRS, Universite de Franche-Comte, 32 Avenue de I'Observatoire, F-24044 Besancon Cedex, France;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
sams; lithium niobate; ft- ir; saw;

机译：SAMS;铌酸锂;FT-IR;锯;

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机译：在硅晶片上制备薄铌酸锂层，以实现声器件和LSI的晶片级集成
2. Residual Stress in Lithium Niobate Film Layer of LNOI/Si Hybrid Wafer Fabricated Using Low-Temperature Bonding Method [J] . Ryo Takigawa, Toru Tomimatsu, Eiji Higurashi, Micromachines . 2019,第2期

机译：低温键合法制备的LNOI / Si杂化晶片铌酸锂薄膜层中的残余应力
3. Modeling and Validation of Indentation Depth of Abrasive Grain into Lithium Niobate Wafer by Fixed-Abrasive Lapping [J] . Zhu Nannan, Zhu Yongwei, Xu Jun, 南京航空航天大学学报（英文版） . 2017,第001期

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4. Wafer-scale low-loss lithium niobate photonic integrated circuits [C] . Kevin Luke, Prashanta Kharel, Christian Reimer, IEEE Photonics Conference . 2020

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5. Propagation of plate acoustic waves in Z-cut lithium niobate: Single crystal and periodically poled wafers [D] . Klymko, Victor 2009

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6. Residual Stress in Lithium Niobate Film Layer of LNOI/Si Hybrid Wafer Fabricated Using Low-Temperature Bonding Method [O] . Ryo Takigawa, Toru Tomimatsu, Eiji Higurashi, 2019

机译：低温键合法制备的LNOI / Si杂化晶片铌酸锂薄膜层中的残余应力
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机译：金属化锂铌晶晶片中的非结构声注射发光

Easy And Versatile Functionalization Of Lithium Niobate Wafers By Hydrophobic Trichlorosilanes

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