Self-Organization of Two-Dimensional Highly-Regular Nanowire Meshes on Si (110) – 16×2 Surface

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Ie-Hong Hong
National Chiayi University, Chiayi, Taiwan

Series: Nanotechnology Science and Technology
BISAC: TEC027000

This book presents a novel bottom-up nanofabrication for the self-organization of two-dimensional highly-regular nanowire meshes on a Si(110)-16×2 surface, such as silicon, Au-silicide and Gd-silicide nanomeshes. The structural and electronic properties of these nanomeshes are characterized by scanning tunneling microscopy and spectroscopy. These self-ordered nanomeshes consist of two crossed arrays of parallel-aligned NWs with nearly-identical widths of 1.4~3 nm and periodicity of 5~6 nm and are formed over a mesoscopic area in excess of 0.3 x 0.3 ìm2 , so as to show a high integration density up to ~1012 junctions/cm2. Such an ultrahigh-density nanowire network can serve as a versatile nanotemplate for nanofabrication and nanointegration of the highly-integrated molecular or magnetic silicide crossbar nanomesh on Si(110) surface for a broad range of device applications. (Imprint: Nova)

Table of Contents

Table of Contents

ABSTRACT

I. INTRODUCTION

II. EXPERIMENTAL

III. CHARACTERIZATION OF ATOMICALLY CLEAN Si(110)¡V16x2 SURFACE

IV. CLARIFICATION OF UPPER Si(110) TERRANCES IDENTICAL TO SILICON NANOWIRES

V. CHARACTERIZATION OF TWO-DIMENSIONAL SELF-ORGANIZED SILICON NANOWIRE NETWORKS

VI. CHARACTERIZATION OF TWO-DIMENSIONAL SELF-ORGANIZED GOLD-SILICIDE NANOWIRE NETWORKS

VII. CHARACTERIZATION OF TWO-DIMENSIONAL SELF-ORGANIZED GADOLINIUM-SILICIDE NANOWIRE NETWORKS

VIII. PROSPECTS OF TWO-DIMENSIONAL SELF-ORGANIZED SILICIDE NANOWIRE NETWORKS

XI. CONCLUSION

ACKNOWLEDGMENTS

REFERENCES

INDEX

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