Surface Structure Dependence of Mechanochemical Etching: Scanning Probe-Based Nanolithography Study on Si(100), Si(110), and Si(111)

Xiao Chen; Xin Xiaojun; He Xin; Wang Hongbo; Chen Lei; Kim Seong H.; Qian Linmao

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Surface Structure Dependence of Mechanochemical Etching: Scanning Probe-Based Nanolithography Study on Si(100), Si(110), and Si(111)

机译：机械化学蚀刻的表面结构依赖性：Si（100），Si（110）和Si（111）的扫描基于探针的纳米线轮廓研究

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We employed a scanning probe-based lithography process on single-crystalline Si(100), Si(110), and Si(111) surfaces and studied the effects of crystallographic surface structures on mechanochemical etching of silicon in liquid water. The facet angle and etching rate of the mechanochemical process were different from those of the purely chemical etching process. In liquid water, the shape of the mechanochemically etched nanochannel appeared to be governed by thermodynamics of the etched surface, rather than stress distribution. Analyzing the etch rate with the mechanically assisted Arrhenius-type kinetics model showed that the shear-induced hydrolysis activity varies drastically with the crystallographic structure of silicon surface.

机译：我们在单晶Si（100），Si（110）和Si（111）表面上采用扫描基于探针的光刻工艺，并研究了晶体表面结构对液态水中硅的机械化学蚀刻的影响。机械化学过程的刻面和蚀刻速率与纯化学蚀刻工艺的面部角度和蚀刻速率不同。在液态水中，机械化学蚀刻纳米烷基的形状似乎由蚀刻表面的热力学来控制，而不是应力分布。利用机械辅助Arhenius型动力学模型分析蚀刻速率表明，剪切诱导的水解活性随着硅表面的晶体结构而变化。

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来源
《ACS applied materials & interfaces》 |2019年第23期|共6页
作者
Xiao Chen; Xin Xiaojun; He Xin; Wang Hongbo; Chen Lei; Kim Seong H.; Qian Linmao;
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作者单位

Southwest Jiaotong Univ Tribol Res Inst State Key Lab Tract Power Chengdu 610031 Sichuan Peoples R China;

Southwest Jiaotong Univ Key Lab Magnet Levitat Technol &

Maglev Trains Minist Educ Superconduct &

New Energy R&

D Ctr Mail Stop 165 Chengdu 610031 Sichuan Peoples R China;

Penn State Univ Dept Chem Engn University Pk PA 16802 USA;

Southwest Jiaotong Univ Tribol Res Inst State Key Lab Tract Power Chengdu 610031 Sichuan Peoples R China;

Southwest Jiaotong Univ Tribol Res Inst State Key Lab Tract Power Chengdu 610031 Sichuan Peoples R China;

Southwest Jiaotong Univ Tribol Res Inst State Key Lab Tract Power Chengdu 610031 Sichuan Peoples R China;

Southwest Jiaotong Univ Tribol Res Inst State Key Lab Tract Power Chengdu 610031 Sichuan Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
silicon; scanning probe-based lithography; mechanochemical etching; crystallographic anisotropy; surface energy;

机译：硅;扫描基于探针的光刻;机械化学蚀刻;结晶各向异性;表面能;

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1. Surface Structure Dependence of Mechanochemical Etching: Scanning Probe-Based Nanolithography Study on Si(100), Si(110), and Si(111) [J] . Xiao Chen, Xin Xiaojun, He Xin, ACS applied materials & interfaces . 2019,第23期

机译：机械化学蚀刻的表面结构依赖性：Si（100），Si（110）和Si（111）的扫描基于探针的纳米线轮廓研究
2. Toward Mechanosynthesis of Diamondoid Structures:VI. Quantum-Chemical Molecular Dynamics Comparison of Conditions for the STM Tip Driven Mechanosynthesis on Hydrogenated Si(111), Si(110) and Si(100) Surfaces [J] . Aleksander Herman Journal of computational and theoretical nanoscience . 2010,第11期

机译：走向类金刚石结构的机械合成：VI。氢化的Si（111），Si（110）和Si（100）表面STM尖端驱动机械合成条件的量子化学分子动力学比较
3. Surface electronic structure, relaxations and thermodynamic energies of (100), (110) and (111) surfaces of Mg_2Si: A first-principles theoretical study [J] . Mamindla Ramesh, Niranjan Manish K. Surface Science . 2020,第Jana期

机译：Mg_2Si（100），（110）和（111）表面的表面电子结构，弛豫和热力学能：第一性原理理论研究
4. Strain In Epitaxial Si/SiGe Graded Buffer Structures Grown On Si (100), Si(110) And Si (111) : A Raman Spectroscopy Study [C] . D. Rouchon, V. Destefanis, J.M. Hartmann, SiGe, Ge, and Related Compounds 3: Materials, Processing, and Devices . 2008

机译：Si（100），Si（110）和Si（111）上生长的外延Si / SiGe梯度缓冲结构中的应变：拉曼光谱研究
5. Development of an ultra high vacuum scanning tunneling microscope. Scanning tunneling microscopy study of silicon(111) and germanium(111) surfaces etching under bromine exposure [D] . Fouchier, Marc 2000

机译：超高真空扫描隧道显微镜的开发。溴暴露下硅（111）和锗（111）表面蚀刻的扫描隧道显微镜研究
6. Adsorption and diffusion of sulfur on the (111) (100) (110) and (211) surfaces of FCC metals: Density functional theory calculations [O] . Christopher R. Bernard Rodríguez, Juan A. Santana -1

机译：硫在FCC金属的（111）（100）（110）和（211）表面上的吸附和扩散：密度泛函理论计算
7. Correlação entre a estrutura atômica superficial e o processo de adsorção-dessorção reversível de hidrogênio em eletrodos monocristalinos Pt(111), Pt(100) e Pt(110) The correlation between the atomic surface structure and the reversible adsorption-desorption of hydrogen on single crystal Pt (111), Pt (100) and Pt (110) electrodes [O] . Valderi Pacheco dos Santos, Germano Tremiliosi Filho 2001

机译：单晶Pt（111），Pt（100）和Pt（110）电极中表面原子结构与可逆氢吸附-解吸过程的相关性原子表面结构与单晶氢可逆吸附-解吸之间的相关性晶体Pt（111），Pt（100）和Pt（110）电极
8. Phonons of fcc (100), (110), and (111) Surfaces Using Lennard-Jones Potentials.2. Temperature Dependence of Surface Phonons Studied with Molecular Dynamics [R] . Koleske, D. D., Sibener, S. J. 1992

机译：使用Lennard-Jones电位的fcc（100），（110）和（111）表面的声子。用分子动力学研究表面声子的温度依赖性

Surface Structure Dependence of Mechanochemical Etching: Scanning Probe-Based Nanolithography Study on Si(100), Si(110), and Si(111)

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