A. B. Limanov scite author profile

A. B. Limanov

3Publications

73Citation Statements Received

37Citation Statements Given

How they've been cited

110

How they cite others

Affiliations

Columbia University, Applied Mathematics (United States), A.V. Shubnikov Institute of Crystallography

Publications

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Effect of process parameters on the structural characteristics of laterally grown, laser-annealed polycrystalline silicon films

Voutsas¹,

Limanov

2003

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In this work, we have conducted a systematic study aiming at assessing the effects of process parameters on the microstructural characteristics of laterally grown polycrystalline silicon (poly-Si) films. Poly-Si films were formed by the sequential lateral solidification (SLS) method. The Si film thickness was found to affect significantly the quality of the poly-Si microstructure, manifested by a decreased crystal-growth defect density and increased subboundary spacing in thicker films. A weak (100) texture was observed in the lateral growth direction, except for very thin films (<30 nm) where (110) texture was observed. No specific texture was identified in the normal and transverse directions. Lateral crystallization proceeds by seeded, lateral epitaxial growth at an advancing pitch. We investigated the quality of lateral growth as a function of the advancing, substrate pitch. We found that an optimum pitch range exists, bound on the low end by the detailed shape of the beam-edge profile and on the high end by the quality of crystal formed under deep, interfacial undercooling. In that sense, only a fraction of the laser beamlet can be effectively used for lateral growth and the process should be tuned towards maximizing this fraction. Thin film transistor data were used to further refine the considerations driving the selection of optimum process parameters for SLS lateral crystallization providing the least sensitivity to process-induced variations.

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Low-Temperature Polycrystalline Silicon Thin-Film Transistors and Circuits on Flexible Substrates

Wilt¹,

Kane²,

Limanov³

et al. 2006

MRS Bull.

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Low-defect-density polycrystalline Si on flexible substrates can be instrumental in realizing the full potential of macroelectronics. Direct deposition or solid-phase crystallization techniques are often incompatible with polymers and produce materials with high defect densities. Excimer-laser annealing is capable of producing films of reasonable quality directly on polymer and metallic substrates. Sequential lateral solidification (SLS) is an advanced pulsed-laser-crystallization technique capable of producing Si films on polymers with lower defect density than can be obtained via excimer-laser annealing. Circuits built directly on polymers using these SLS films show the highest performance reported to date. For more information, see http://www.mrs.org/bulletin_ads For more information, see http://www.mrs.org/bulletin_ads

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Mixed-phase solidification of thin Si films on SiO2

Chahal

Wilt

et al. 2010

Journal of Crystal Growth

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A. B. Limanov

Effect of process parameters on the structural characteristics of laterally grown, laser-annealed polycrystalline silicon films

Low-Temperature Polycrystalline Silicon Thin-Film Transistors and Circuits on Flexible Substrates

Mixed-phase solidification of thin Si films on SiO2

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