Environmental dependence of atomic-scale friction at graphite surface steps

Philip Egberts; Zhijiang Ye; Xin Z. Liu; Yalin Dong; Ashlie Martini; Robert W. Carpick

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Environmental dependence of atomic-scale friction at graphite surface steps

机译：石墨表面台阶处原子尺度摩擦的环境依赖性

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Atomic force microscopy experiments and molecular dynamics simulations show that friction between a nanoscale tip and atomically stepped surfaces of graphite is influenced by the environment. The presence of a small amount of water increases friction at atomic steps, but does not strongly influence friction on flat terraces.

机译：原子力显微镜实验和分子动力学模拟表明，纳米级尖端与石墨的原子台阶表面之间的摩擦受到环境的影响。少量水的存在会增加原子级的摩擦，但不会强烈影响平坦平台上的摩擦。

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来源
《Physical review》 |2013年第3期|035409.1-035409.9|共9页
作者
Philip Egberts; Zhijiang Ye; Xin Z. Liu; Yalin Dong; Ashlie Martini; Robert W. Carpick;
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作者单位

Department of Mechanical Engineering and Applied Mechanics, University of Pennsylvania, 220 South 33rd Street,Philadelphia, Pennsylvania 19104, USA;

School of Engineering, University of California Merced, 5200 North Lake Road, Merced, California 95343, USA;

Department of Mechanical Engineering and Applied Mechanics, University of Pennsylvania, 220 South 33rd Street,Philadelphia, Pennsylvania 19104, USA;

School of Mechanical Engineering, Purdue University, 585 Purdue Mall, West Lafayette, Indiana 47907, USA;

School of Engineering, University of California Merced, 5200 North Lake Road, Merced, California 95343, USA;

Department of Mechanical Engineering and Applied Mechanics, University of Pennsylvania, 220 South 33rd Street,Philadelphia, Pennsylvania 19104, USA;

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正文语种 eng
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关键词
atomic scale friction; molecular dynamics and particle methods; tribology and hardness; atomic force microscopy (AFM);

机译：原子尺度摩擦分子动力学和粒子方法;摩擦学和硬度;原子力显微镜（AFM）;

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1. Atomic-Scale Friction on Stepped Surfaces of Ionic Crystals [J] . Pascal Steiner, Enrico Gnecco, Franciszek Krok, Physical review letters . 2011,第18期

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2. Friction At Atomic-scale Surface Steps: Experiment And Theory [J] . Hendrik Hoelscher, Daniel Ebeling, Udo D. Schwarz Physical review letters . 2008,第24期

机译：原子级表面台阶处的摩擦：实验和理论
3. Simulation of Atomic-Scale Ultralow Friction of Graphite/C_(60)/Graphite Interface along [1010] Direction [J] . Naruo Sasaki, Noriaki Itamura, Kouji Miura Japanese Journal of Applied Physics. Part 2, Letters & Express Letters . 2007,第45a49期

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4. ALKYL CHAIN LENGTH DEPENDENCE OF FRICTIONAL PROPERTIES OF ALKYL-SUBSTITUTED PHTHALOCYANINES PHYSISORBED ON GRAPHITE SURFACE [C] . K. Miyake, T. Ikeda, Y. Hori, International Tribology Conference . 2005

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5. The atomic-scale origins of friction: A nanotribological study of diamond surfaces. [D] . Cannara, Rachel J. 2006

机译：摩擦的原子尺度起源：金刚石表面的纳米摩擦学研究。
6. Chemical and physical origins of friction on surfaces with atomic steps [O] . Zhe Chen, Arash Khajeh, Ashlie Martini, 2019

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7. Friction at Atomic-Scale Surface Steps: Experiment and Theory [O] . Holscher, Hendrik, Ebeling, Daniel, Schwarz, Udo D. 2008

机译：原子尺度表面步骤的摩擦：实验和理论
8. Atomic-Scale Friction and Microfriction of Graphite and Diamond Using Friction Force Microscopy. [R] . Ruan, J. A., Bhushan, B. 1993

机译：用摩擦力显微镜观察石墨和金刚石的原子级摩擦和微观摩擦。

Environmental dependence of atomic-scale friction at graphite surface steps

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