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PiezoresistiveProperties of Suspended Graphene Membranesunder Uniaxial and Biaxial Strain in Nanoelectromechanical PressureSensors

机译：压阻式悬浮石墨烯膜的性质机电压力下单轴和双轴应变下的应力感测器

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Graphene membranes act as highly sensitive transducers in nanoelectromechanical devices due to their ultimate thinness. Previously, the piezoresistive effect has been experimentally verified in graphene using uniaxial strain in graphene. Here, we report experimental and theoretical data on the uni- and biaxial piezoresistive properties of suspended graphene membranes applied to piezoresistive pressure sensors. A detailed model that utilizes a linearized Boltzman transport equation describes accurately the charge-carrier density and mobility in strained graphene and, hence, the gauge factor. The gauge factor is found to be practically independent of the doping concentration and crystallographic orientation of the graphene films. These investigations provide deeper insight into the piezoresistive behavior of graphene membranes.

机译：石墨烯膜由于其极薄的特性而在纳米机电设备中充当高度敏感的传感器。以前，已经使用石墨烯中的单轴应变在石墨烯中通过实验验证了压阻效应。在这里，我们报告了应用于压阻式压力传感器的悬浮石墨烯膜的单轴和双轴压阻特性的实验和理论数据。利用线性化的玻耳兹曼输运方程的详细模型可以准确地描述应变石墨烯中的电荷载流子密度和迁移率，从而可以准确地描述应变系数。发现规格因子实际上与石墨烯膜的掺杂浓度和晶体学取向无关。这些研究为石墨烯膜的压阻行为提供了更深入的了解。

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期刊名称 ACS AuthorChoice
作者
AndersonD. Smith; Frank Niklaus; *; Alan Paussa; Stephan Schröder; Andreas C. Fischer; Mikael Sterner; Stefan Wagner; Sam Vaziri; Fredrik Forsberg; David Esseni; Mikael Östling; Max C. Lemme; *;
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年(卷),期 -1(10),11
年度 -1
页码 9879–9886
总页数 8
原文格式 PDF
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关键词
graphene nanoelectromechanical system NEMS MEMS strain gauge transducer piezoresistive transduction gauge factor pressure transducer (suspended) graphene membranes uniaxial and biaxial strain;

机译：石墨烯;纳米机电系统;NEMS;MEMS;应变仪;换能器;压阻转导;应变系数;压力传感器;（悬浮的）石墨烯膜;单轴和双轴应变;

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专利

1. Piezoresistive Properties of Suspended Graphene Membranes under Uniaxial and Biaxial Strain in Nanoelectromechanical Pressure Sensors [J] . Smith Anderson D., Niklaus Frank, Paussa Alan, ACS nano . 2016,第11期

机译：纳米机电压力传感器中单轴和双轴应变下石墨烯膜的压阻特性
2. Structural deformations and mechanical properties of Si_2BN under uniaxial and uniform biaxial strain in comparison with graphene: An ab initio study [J] . Fthenakis Zacharias G., Menon Madhu Physical review . 2019,第20期

机译：与石墨烯相比单轴和均匀双轴应变下Si_2BN的结构变形和力学性能：从头算
3. Structural deformations and mechanical properties of Si_2BN under uniaxial and uniform biaxial strain in comparison with graphene: An ab initio study [J] . Fthenakis Zacharias G., Menon Madhu Physical review . 2019,第20期

机译：与石墨烯单轴和均匀双轴菌株下Si_2bn的结构变形及力学性能：AB Initio研究
4. Graphene-based piezoresistive pressure sensing for uniaxial and biaxial strains [C] . Smith Anderson David, Niklaus Frank, Vaziri Sam, IEEE Silicon Nanoelectronics Workshop . 2014

机译：基于石墨烯的单轴和双轴应变压阻传感
5. Nanoelectromechanical Studies of Suspended Resonators using Graphene grown by Chemical Vapour Deposition [D] . Chaudhuri, Arnab. 2017

机译：化学气相沉积利用石墨烯的悬浮谐振器纳米机电研究
6. Suspended Graphene Membranes with Attached SiliconProof Masses as Piezoresistive Nanoelectromechanical Systems Accelerometers [O] . Xuge Fan, *, Fredrik Forsberg, -1

机译：附有硅的悬浮石墨烯膜证明质量作为压阻纳米机电系统加速度计
7. Piezoresistive Properties of Suspended Graphene Membranes under Uniaxial and Biaxial Strain in Nanoelectromechanical Pressure Sensors [O] . Smith, Anderson D., Niklaus, Frank, Paussa, Alan, 2017

机译：悬浮石墨烯膜在单轴拉伸下的压阻特性纳米机电压力传感器中的双轴和双轴应变

PiezoresistiveProperties of Suspended Graphene Membranesunder Uniaxial and Biaxial Strain in Nanoelectromechanical PressureSensors

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