Effect of chain length on nanomechanics of alkanethiol self-assembly

Ramya Desikan; Sarah Armel; Harry M Meyer III

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Effect of chain length on nanomechanics of alkanethiol self-assembly

机译：链长对链烷硫醇自组装纳米力学的影响

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The ability to generate nanomechanical cantilever motion from molecular interactions between analytes and immobilized receptors offers a unique platform for chemical and biological sensor development. A fundamental understanding of the origins of nanomechanical motion, however, is essential for developing reliable and reproducible sensors. We have investigated the nanomechanical bending of microfabricated cantilevers during the immobilization of alkanethiols of different chain lengths in the liquid phase. The bending of the cantilevers has been monitored using both piezoresistive and optical readout approaches. Our results suggest that the surface packing density in a liquid medium is largely affected by the length of the chains, which will have a profound influence on sensor sensitivity.

机译：通过分析物和固定受体之间的分子相互作用产生纳米机械悬臂运动的能力为化学和生物传感器开发提供了独特的平台。但是，对纳米机械运动起源的基本了解对于开发可靠且可重现的传感器至关重要。我们已经研究了在液相中固定不同链长的链烷硫醇过程中，微型悬臂的纳米机械弯曲。悬臂的弯曲已经使用压阻和光学读出方法进行了监测。我们的结果表明，液体介质中的表面堆积密度在很大程度上受链长的影响，这将对传感器的灵敏度产生深远的影响。

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《Nanotechnology》 |2007年第42期|共6页
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Ramya Desikan; Sarah Armel; Harry M Meyer III;
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1. Effect of chain length on nanomechanics of alkanethiol self-assembly [J] . Ramya Desikan, Sarah Armel, Harry M Meyer III Nanotechnology . 2007,第42期

机译：链长对链烷硫醇自组装纳米力学的影响
2. Impedance spectral studies of self-assembly of alkanethiols with different chain lengths using different immobilization strategies on Au electrodes [J] . Shinn-Jyh Ding, Bin-Wha Chang, Ching-Chou Wu, Analytica chimica acta . 2005,第1a2期

机译：在Au电极上使用不同固定策略的不同链长链烷硫醇自组装的阻抗谱研究
3. Critical Influence of the Fluorinated Chain Length in the Self-Assembly of Terminally Perfluorinated Alkanethiol Monolayers on Gold Surfaces. An Electrochemical Study [J] . C. Naud, A. Commeyras Langmuir: The ACS Journal of Surfaces and Colloids . 2001,第16期

机译：氟化链长对金表面上末端全氟化链烷醇单分子层自组装的关键影响。电化学研究
4. Self-assembly of Alkanethiols to Protect GaAs(100) [C] . Pablo Mancheno-Posso, Anthony J. Muscat International symposium on semiconductor cleaning science and technology;Meeting of the Electrochemical Society . 2013

机译：自组装烷硫醇以保护GaAs（100）
5. Electrochemical self-assembly of alkanethiols on gold [D] . Anshuman, Anshuman 2007

机译：链烷硫醇在金上的电化学自组装
6. Interaction of the (2√3 × 3)rect. Adsorption-SiteBasis and Alkyl-Chain Close Packing in Alkanethiol Self-AssembledMonolayers on Au(111): A Molecular Dynamics Study of Alkyl-Chain Conformation [O] . Soumya Bhattacharya, Mitchell P. Yothers, Liangliang Huang, 2020

机译：（2√3×3）矩形的相互作用。吸附部位烷硫醇自组装的基础和烷基链紧密堆积Au（111）上的单分子层：烷基链构象的分子动力学研究。
7. Response versus Chain Length of Alkanethiol-Capped Au Nanoparticle Chemiresistive Chemical Vapor Sensors [O] . García-Berríos Edgardo, Gao Ting, Woodka Marc D., 2010

机译：烷硫醇封端的金纳米颗粒化学阻性化学蒸汽传感器的响应与链长的关系
8. Self-Assembled Monolayers of Alkanethiols on Gold: Monolayers Derived From Two Components with Alkane Chains of Different Lengths. [R] . Folkers, J. P., Laibinis, P. E., Whitesides, G. M. 1992

机译：在金上自组装的alkanethiols单层膜：由两种不同长度的烷烃链组成的单层膜。

Effect of chain length on nanomechanics of alkanethiol self-assembly

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