Self Formation of Porous Silicon Structure: Primary Microscopic Mechanism of Pore Separation

M. E. Kompan; A. E. Gorodetski; I. L. Tarasova

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Self Formation of Porous Silicon Structure: Primary Microscopic Mechanism of Pore Separation

机译：多孔硅结构的自形成：孔分离的主要微观机理

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A microscopic mechanism of the self-formation of a dense pore system in the porous silicon is proposed. According to it, the process of porous silicon self-formation is dictated by the laws of dynamics for a charge carriers system. The proposed mechanism is proved by the results of computer simulation. The values of inter-pore separation distance in p-type based porous material and anodization current threshold density are evaluated; the dependence of an inter-pore separation distance on the carriers concentration, close to n~(-1/2), is predicted.

机译：提出了在多孔硅中形成致密孔系统的微观机理。据此，多孔硅自形成的过程由电荷载流子系统的动力学定律所决定。计算机仿真结果证明了该机制的有效性。评价基于p型多孔材料的孔间分离距离的值和阳极氧化电流阈值密度;预测了孔间分离距离对载流子浓度的依赖性，接近n〜（-1/2）。

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《Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena 》 |2004年第0期| 共4页
作者
M. E. Kompan; A. E. Gorodetski; I. L. Tarasova;
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正文语种 eng
中图分类分析化学 ;
关键词
porous silicon; electrochemistry; charge carriers; spatial scaling;

机译：多孔硅;电化学;载流子;空间尺度;

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1. Self Formation of Porous Silicon Structure: Primary Microscopic Mechanism of Pore Separation [J] . M. E. Kompan, A. E. Gorodetski, I. L. Tarasova Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena . 2004 ,第0期

机译：多孔硅结构的自形成：孔分离的主要微观机理
2. Formation of Gradient-Porous Silicon Structures with Variable Pore Morphology [J] . Gosteva E. A., Rubtsova K. I., Silina M. D., Mechanics of solids . 2020 ,第1期

机译：具有可变孔形态的梯度多孔硅结构的形成
3. Formation mechanism of porous reaction-bonded silicon nitride with interconnected pores in the presence of MgO [J] . Nikonam Raheleh M., Pugh Martin D., Drew Robin A. L. Journal of the European Ceramic Society . 2019 ,第4期

机译：在MgO存在下与相互连接孔隙的多孔反应键合氮化硅的形成机理
4. Self Formation of Porous Silicon Structure: Primary Microscopic Mechanism of Pore Separation [C] . A.E. Gorodetski, M.E. Kompanl, I.L. Tarasova, International conference on self-formation theory and applications . 2004

机译：多孔硅结构的自体形成：孔分离的初级显微镜机制
5. Study of silicon carbide formation by liquid silicon infiltration of porous carbon structures. [D] . Margiotta, Jesse C. 2009

机译：研究通过液态硅渗透多孔碳结构形成碳化硅。
6. Microstructure and Fracture Mechanism Investigation of Porous Silicon Nitride–Zirconia–Graphene Composite Using Multi-Scale and In-Situ Microscopy [O] . Zhongquan Liao, Yvonne Standke, Jürgen Gluch, 2021

机译：多尺度和原位显微镜微型氮化硅 - 氮化硅 - 石墨烯复合材料的微观结构和断裂机理研究
7. Thermodynamics of Formation of Porous Polymeric Membrane by Phase Separation Method V. Probabilities of Finding Through-, Semi-Open, and Isolated Pores in Three-Dimensional Membrane Structure Model Constructed by Computer Simulation Experiment [O] . Hideki Iijima, Akira Kataoka, Kenji Kamide 1995

机译：通过相分离法形成多孔聚合物膜的热力学。通过计算机仿真实验构建的三维膜结构模型中通过，半开放和隔离孔发现的概率
8. Formation of 3D structures on silicon surface using porous silicon [R] . Vitanov, P. , Kamenova, M. , Kamburova, R. 1995

机译：使用多孔硅在硅表面上形成3D结构

Self Formation of Porous Silicon Structure: Primary Microscopic Mechanism of Pore Separation

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