Selective observation of electrically active grain boundaries in silicon
Author:
Publisher
AIP Publishing
Subject
Physics and Astronomy (miscellaneous)
Link
http://aip.scitation.org/doi/pdf/10.1063/1.92291
Reference3 articles.
1. Zero‐bias resistance of grain boundaries in neutron‐transmutation‐doped polycrystalline silicon
2. Liquid-crystal technique for observing integrated-circuit operation
3. Improvement of polycrystalline silicon solar cells with grain‐boundary hydrogenation techniques
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1. Gettering effect in grain boundaries of multi-crystalline silicon;physica status solidi (c);2012-09-14
2. Semiconducting Polycrystalline Ceramics;Materials Science and Technology;2006-09-15
3. Micro- to nano-characterization of semiconductor grain boundaries;Surface Science Reports;1993-12
4. Dopant activation and Hall mobility in B- and As-implanted polysilicon films after rapid or conventional thermal annealing;Semiconductor Science and Technology;1991-12-01
5. Electrically inactive grain boundaries in rapid thermal annealed boron‐implanted polycrystalline silicon films;Applied Physics Letters;1990-06-18
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