Junction Passivation for Direct Silicon Bond Hybrid Orientation Technology

Direct silicon bonding (DSB) for hybrid orientation technology has recently generated a lot of interest due to the significant performance enhancements reported for PMOS devices that are fabricated on alternative substrate orientations. Significantly higher leakage was observed for P + /N diodes if...

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Veröffentlicht in:	IEEE transactions on electron devices 2007-08, Vol.54 (8), p.2045-2050
Hauptverfasser:	Joshi, S., Pinto, A., Huang, Y.-T., Wise, R., Cleavelin, R., Seacrist, M., Ries, M., Ramin, M., Freeman, M., Nguyen, B., Matthews, K., Wilks, B., Denning, L., Johnson, C., Bennet, J., Ma, M., Lin, C.-T., Banerjee, S.K.
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Sprache:	eng
Schlagworte:	Applied sciences Bonding Devices Diodes Direct silicon bonding (DSB) Electronics Epitaxial growth Exact sciences and technology hybrid orientation technology (HOT) Implants interface junction Junctions Leakage Microelectronic fabrication (materials and surfaces technology) Orientation Passivation Performance evaluation PMOSFET Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Silicon Silicon substrates Substrates Transistors
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container_title	IEEE transactions on electron devices
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creator	Joshi, S. Pinto, A. Huang, Y.-T. Wise, R. Cleavelin, R. Seacrist, M. Ries, M. Ramin, M. Freeman, M. Nguyen, B. Matthews, K. Wilks, B. Denning, L. Johnson, C. Bennet, J. Ma, M. Lin, C.-T. Banerjee, S.K.
description	Direct silicon bonding (DSB) for hybrid orientation technology has recently generated a lot of interest due to the significant performance enhancements reported for PMOS devices that are fabricated on alternative substrate orientations. Significantly higher leakage was observed for P + /N diodes if the junction depletion region was located close to the interface between the (110) and (100) Si surfaces. Hydrogen and fluorine passivation of this interface by ion implantation resulted in an order of magnitude improvement in the reverse leakage. In this brief, the experiments that performed using several dose levels of H 2 , F, and N implants are described. Electrical characterization data for reverse leakage, forward current, and ideality factors are presented in the form of cumulative probability plots, from which it is concluded that H and F passivation by ion implantation consistently provides a significant improvement in junction leakage, as compared to an unimplanted DSB wafer. An increase in the forward resistance was observed due to the implants, as compared to bulk Si (100) control samples.
doi_str_mv	10.1109/TED.2007.901350
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Significantly higher leakage was observed for P + /N diodes if the junction depletion region was located close to the interface between the (110) and (100) Si surfaces. Hydrogen and fluorine passivation of this interface by ion implantation resulted in an order of magnitude improvement in the reverse leakage. In this brief, the experiments that performed using several dose levels of H 2 , F, and N implants are described. Electrical characterization data for reverse leakage, forward current, and ideality factors are presented in the form of cumulative probability plots, from which it is concluded that H and F passivation by ion implantation consistently provides a significant improvement in junction leakage, as compared to an unimplanted DSB wafer. 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Significantly higher leakage was observed for P + /N diodes if the junction depletion region was located close to the interface between the (110) and (100) Si surfaces. Hydrogen and fluorine passivation of this interface by ion implantation resulted in an order of magnitude improvement in the reverse leakage. In this brief, the experiments that performed using several dose levels of H 2 , F, and N implants are described. Electrical characterization data for reverse leakage, forward current, and ideality factors are presented in the form of cumulative probability plots, from which it is concluded that H and F passivation by ion implantation consistently provides a significant improvement in junction leakage, as compared to an unimplanted DSB wafer. An increase in the forward resistance was observed due to the implants, as compared to bulk Si (100) control samples.</description><subject>Applied sciences</subject><subject>Bonding</subject><subject>Devices</subject><subject>Diodes</subject><subject>Direct silicon bonding (DSB)</subject><subject>Electronics</subject><subject>Epitaxial growth</subject><subject>Exact sciences and technology</subject><subject>hybrid orientation technology (HOT)</subject><subject>Implants</subject><subject>interface</subject><subject>junction</subject><subject>Junctions</subject><subject>Leakage</subject><subject>Microelectronic fabrication (materials and surfaces technology)</subject><subject>Orientation</subject><subject>Passivation</subject><subject>Performance evaluation</subject><subject>PMOSFET</subject><subject>Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices</subject><subject>Silicon</subject><subject>Silicon substrates</subject><subject>Substrates</subject><subject>Transistors</subject><issn>0018-9383</issn><issn>1557-9646</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNp9kUtPGzEQgC0EEuFx5sBlhUTbyybjx9rrYwu0gJCC1HC2vM5s62hZg72plH9fpxtRiQMn2-NvRjPzEXJGYUop6Nni5nrKANRUA-UV7JEJrSpVainkPpkA0LrUvOaH5CilVX5KIdiE3N-vezf40BePNiX_x_67tyEW1z6iG4qfvvMuh76Fflncbprol8U8euyHEV2g-92HLvzanJCD1nYJT3fnMXn6frO4ui0f5j_urr4-lI7LeigbiVYx0SBrEKDNzbYsh5yWDWDFuEIhW4C6agQ2KCVUYJco2kYKlwcFfkw-j3VfYnhdYxrMs08Ou872GNbJaOCSKqhVJj99SPK8Ak01zeCXD0EqFeWcSS4yevEOXYV17PPAppZcaV2xbYuzEXIxpBSxNS_RP9u4MRTM1pbJtszWlhlt5YzLXVmbnO3aaHvn0_-0WldUSJa585HziPj2LZhSWTT_CwAwm7A</recordid><startdate>20070801</startdate><enddate>20070801</enddate><creator>Joshi, S.</creator><creator>Pinto, A.</creator><creator>Huang, Y.-T.</creator><creator>Wise, R.</creator><creator>Cleavelin, R.</creator><creator>Seacrist, M.</creator><creator>Ries, M.</creator><creator>Ramin, M.</creator><creator>Freeman, M.</creator><creator>Nguyen, B.</creator><creator>Matthews, K.</creator><creator>Wilks, B.</creator><creator>Denning, L.</creator><creator>Johnson, C.</creator><creator>Bennet, J.</creator><creator>Ma, M.</creator><creator>Lin, C.-T.</creator><creator>Banerjee, S.K.</creator><general>IEEE</general><general>Institute of Electrical and Electronics Engineers</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Significantly higher leakage was observed for P + /N diodes if the junction depletion region was located close to the interface between the (110) and (100) Si surfaces. Hydrogen and fluorine passivation of this interface by ion implantation resulted in an order of magnitude improvement in the reverse leakage. In this brief, the experiments that performed using several dose levels of H 2 , F, and N implants are described. Electrical characterization data for reverse leakage, forward current, and ideality factors are presented in the form of cumulative probability plots, from which it is concluded that H and F passivation by ion implantation consistently provides a significant improvement in junction leakage, as compared to an unimplanted DSB wafer. An increase in the forward resistance was observed due to the implants, as compared to bulk Si (100) control samples.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TED.2007.901350</doi><tpages>6</tpages></addata></record>
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subjects	Applied sciences Bonding Devices Diodes Direct silicon bonding (DSB) Electronics Epitaxial growth Exact sciences and technology hybrid orientation technology (HOT) Implants interface junction Junctions Leakage Microelectronic fabrication (materials and surfaces technology) Orientation Passivation Performance evaluation PMOSFET Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Silicon Silicon substrates Substrates Transistors
title	Junction Passivation for Direct Silicon Bond Hybrid Orientation Technology
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