Printable Single Crystal Silicon Micronanoscale Ribbons Printable Single Crystal Silicon Micro Nanoscale Ribbons Platelets and Bars Generated from Bulk Wafers
In this paper we report a new fabrication route to generate microstructured single crystalline silicon s Si ribbons using 1 1 0 silicon Two different methods were explored for producing these printable structures AJ Baca et al Printable single crystal silicon micro nanoscale ribbons platelets and bars generated from bulk wafers Adv Funct Mater 17 3051 3062 2007
Printable Single Crystal Silicon Micronanoscale Ribbons
Printable Single Crystal Silicon Micronanoscale Ribbons
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Supporting 1 Mentioning 105 Printable Single Crystal Silicon Micro Nanoscale Ribbons Platelets and Bars Generated from Bulk Wafers Baca Alfred J Meitl Matthew Ko Heung Cho Mack Shawn Kim Hoon Dong Jingyan Ferreira Placid M Rogers John A
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Printable Single Crystal Silicon Micronanoscale Ribbons
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https://www.semanticscholar.org/paper/Printable-Single‐Crystal
This article demonstrates a method for fabricating high quality single crystal silicon ribbons platelets and bars with dimensions between 100 nm and 5 cm from bulk 111 wafers by using phase shift and amplitude photolithographic methods in conjunction with anisotropic chemical etching procedures
http://www.rogersgroup.northwestern.edu/files/2007/nonsoiadvf…
Printable Single Crystal Silicon Micro Nanoscale Ribbons Platelets and Bars Generated from Bulk Wafers By Alfred J Baca Matthew A Meitl Heung Cho Ko Shawn Mack Hoon Sik Kim Jingyan Dong Placid M Ferreira and John A Rogers 1 Introduction Printable or solution processable semiconductor materials
https://www.researchgate.net/publication/228040391_Printable_Single
Request PDF Printable Single Crystal Silicon Micro Nanoscale Ribbons Platelets and Bars Generated from Bulk Wafers This article demonstrates a method for fabricating high quality
https://www.x-mol.com/paper/s1677510
This article demonstrates a method for fabricating high quality single crystal silicon ribbons platelets and bars with dimensions between 100 nm and 5 cm from bulk 111 wafers by using phase shift and amplitude photolithographic methods in conjunction with anisotropic chemical etching procedures
https://www.scholars.northwestern.edu/en/publications/printable-single
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Printable single crystal silicon micro nanoscale ribbons platelets and bars generated from bulk wafers AJ Baca MA Meitl HC Ko S Mack HS Kim J Dong PM Ferreira Advanced Functional Materials 17 16 3051 3062 2007 Abstract This article demonstrates a method for fabricating high quality single crystal silicon ribbons platelets and bars with dimensions between 100 nm and 5 cm from bulk 111 wafers by using phase shift and amplitude photolithographic methods in conjunction with anisotropic chemical etching procedures
AJ Baca et al Printable single crystal silicon micro nanoscale ribbons platelets and bars generated from bulk wafers Adv Funct Mater 17 3051 3062 2007