Ultra-Sensitive Imaging and Interfacial Analysis of Patterned Hydrophilic SAM Surfaces Using Energy Dissipation Chemical Force Microscopy

Paul D. Ashby; Charles M. Lieber

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Ultra-Sensitive Imaging and Interfacial Analysis of Patterned Hydrophilic SAM Surfaces Using Energy Dissipation Chemical Force Microscopy

机译：利用消能化学力显微镜对亲水性SAM表面进行超灵敏成像和界面分析

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Energy dissipation chemical force microscopy has been used to analyze the dissipative properties of chemically similar regions of hydroxyl- and carboxyl-terminated SAMs on gold with a hydroxyl-terminated tip. Energy dissipation imaging quantitatively isolates dissipative interfacial interactions from topography, producing a significantly more informative image than phase imaging. Also, energy dissipation force curves probed the rheological properties of the tip-sample interaction. Viscosity of the confined water increased slightly over that of the bulk, and SAM deformation was found to have a longer retardation time than restructuring of interfacial ions and solvent during tip-sample contact.

机译：能量耗散化学力显微镜已用于分析具有羟基末端的金在金上的羟基和羧基末端SAM的化学相似区域的耗散特性。能量消散成像可定量地将耗散界面相互作用与形貌隔离，从而产生比相成像明显得多的信息图像。同样，能量耗散力曲线探究了针尖样品相互作用的流变特性。与尖端样品接触期间，承压水的粘度略高于主体粘度，并且发现SAM变形的延迟时间长于界面离子和溶剂的重组。

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《Journal of the American Chemical Society》 |2005年第18期|p.6814-6818|共5页
作者
Paul D. Ashby; Charles M. Lieber;
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作者单位

Molecular Foundry, Lawrence Berkeley National Lab, Berkeley, CA 94720;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类化学;
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1. Distinct Chemical Contrast in Adhesion Force Images of Hydrophobic-Hydrophilic Patterned Surfaces Using Multiwalled Carbon Nanotube Probe Tips [J] . Hiroaki Azehara, Yuka Kasanuma, Koichiro Ide, Japanese journal of applied physics . 2008,第5issue1期

机译：使用多壁碳纳米管探针针尖疏水-亲水的图案化表面的粘附力图像中的不同化学对比
2. Hofmeister Effect on the Interfacial Free Energy of Aliphatic and Aromatic Surfaces Studied by Chemical Force Microscopy [J] . Jonathan Patete, John M. Petrofsky, Jeffery Stepan The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2009,第2期

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3. Characterization of surface stiffness and probe-sample dissipation using the band excitation method of atomic force microscopy: A numerical analysis [J] . Kareem A.U., Solares S.D. Nanotechnology . 2012,第1期

机译：使用原子力显微镜的能带激发方法表征表面刚度和探针样品的耗散：数值分析
4. INTERACTION OF SURFACE FREE ENERGY AND HUMIDITY ON AFM TIP-SAMPLE ADHESION MEASURED BY CHEMICAL FORCE MICROSCOPY [C] . Lijiang Chen, Tinh Nguyen, Xiaohong Gu, Adhesion Society, Inc. Annual Meeting . 2006

机译：通过化学力显微镜测量的表面自由能和湿度对AFM尖端样品粘合的相互作用
5. Interactions of extracellular polymeric substances with mineral surfaces: Molecular modeling, Fourier transform infrared, atomic force microscopy, and quartz crystal microbalance with dissipation. [D] . Kwon, Kideok. 2006

机译：细胞外聚合物与矿物质表面的相互作用：分子建模，傅立叶变换红外光谱，原子力显微镜和具有耗散特性的石英晶体微量天平。
6. Energy dissipation of nanoconfined hydration layer: Long-range hydration on the hydrophilic solid surface [O] . Bongsu Kim, Soyoung Kwon, Hyosik Mun, -1

机译：纳米约束水化层的能量耗散：亲水性固体表面的长距离水化
7. Ultra-Sensitive Imaging and Interfacial Analysis of Patterned Hydrophilic SAM Surfaces Using Energy Dissipation Chemical Force Microscopy [O] . -1

机译：使用能量耗散化学力显微镜的图案化亲水SAM表面的超敏成像和界面分析

Ultra-Sensitive Imaging and Interfacial Analysis of Patterned Hydrophilic SAM Surfaces Using Energy Dissipation Chemical Force Microscopy

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