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公开(公告)号:US06982230B2
公开(公告)日:2006-01-03
申请号:US10291334
申请日:2002-11-08
申请人: Cyril Cabral, Jr. , Alessandro C. Callegari , Michael A. Gribelyuk , Paul C. Jamison , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Deborah A. Neumayer , Pushkar Ranade , Sufi Zafar
发明人: Cyril Cabral, Jr. , Alessandro C. Callegari , Michael A. Gribelyuk , Paul C. Jamison , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Deborah A. Neumayer , Pushkar Ranade , Sufi Zafar
IPC分类号: H01L21/31
CPC分类号: H01L21/02181 , C23C16/405 , C23C16/56 , H01L21/02189 , H01L21/02205 , H01L21/02271 , H01L21/28185 , H01L21/28194 , H01L21/28202 , H01L21/31604 , H01L21/823857 , H01L27/0805 , H01L29/495 , H01L29/4966 , H01L29/513 , H01L29/517 , H01L29/518 , H01L29/66545 , H01L2924/0002 , H01L2924/00
摘要: A method of fabricating hafnium oxide and/or zirconium oxide films is provided. The methods include providing a mixture of Hf and/or Zr alkoxide dissolved, emulsified or suspended in a liquid; vaporizing at least the alkoxide and depositing the vaporized component at a temperature of greater than 400° C. The resultant film is dense, microcrystalline and is capable of self-passivation when treated in a hydrogen plasma or forming gas anneal.
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2.发明授权Deposition of hafnium oxide and/or zirconium oxide and fabrication of passivated electronic structures 有权氧化铪和/或氧化锆的沉积和钝化电子结构的制造公开(公告)号:US07566938B2
公开(公告)日:2009-07-28
申请号:US11281032
申请日:2005-11-17
申请人: Cyril Cabral, Jr. , Alessandro C. Callegari , Michael A. Gribelyuk , Paul C. Jamison , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Deborah A. Neumayer , Pushkar Ranade , Sufi Zafar
发明人: Cyril Cabral, Jr. , Alessandro C. Callegari , Michael A. Gribelyuk , Paul C. Jamison , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Deborah A. Neumayer , Pushkar Ranade , Sufi Zafar
IPC分类号: H01L29/76
CPC分类号: H01L21/02181 , C23C16/405 , C23C16/56 , H01L21/02189 , H01L21/02205 , H01L21/02271 , H01L21/28185 , H01L21/28194 , H01L21/28202 , H01L21/31604 , H01L21/823857 , H01L27/0805 , H01L29/495 , H01L29/4966 , H01L29/513 , H01L29/517 , H01L29/518 , H01L29/66545 , H01L2924/0002 , H01L2924/00
摘要: A method of fabricating hafnium oxide and/or zirconium oxide films is provided. The methods include providing a mixture of Hf and/or Zr alkoxide dissolved, emulsified or suspended in a liquid; vaporizing at least the alkoxide and depositing the vaporized component at a temperature of greater than 400° C. The resultant film is dense, microcrystalline and is capable of self-passivation when treated in a hydrogen plasma or forming gas anneal.
摘要翻译: 提供了一种制造氧化铪和/或氧化锆膜的方法。 所述方法包括提供溶解,乳化或悬浮在液体中的Hf和/或Zr醇盐的混合物; 至少蒸发醇盐并在大于400℃的温度下沉积蒸发的组分。所得膜是致密的,微晶的,并且当在氢等离子体中处理或形成气体退火时能够自钝化。
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公开(公告)号:US20080293259A1
公开(公告)日:2008-11-27
申请号:US12187767
申请日:2008-08-07
申请人: Wanda Andreoni , Alessandro C. Callegari , Eduard A. Cartier , Alessandro Curioni , Christopher P. D'Emic , Evgeni Gousev , Michael A. Gribelyuk , Paul C. Jamison , Rajarao Jammy , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Carlo A. Pignedoli , Joseph F. Shepard, JR. , Sufi Zafar
发明人: Wanda Andreoni , Alessandro C. Callegari , Eduard A. Cartier , Alessandro Curioni , Christopher P. D'Emic , Evgeni Gousev , Michael A. Gribelyuk , Paul C. Jamison , Rajarao Jammy , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Carlo A. Pignedoli , Joseph F. Shepard, JR. , Sufi Zafar
IPC分类号: H01L21/263
CPC分类号: H01L21/28176 , H01L29/4908 , H01L29/4966 , H01L29/513 , H01L29/517 , H01L29/6656 , H01L29/66575 , H01L29/66772 , H01L29/7833 , H01L29/78684
摘要: The present invention provides a gate stack structure that has high mobilities and low interfacial charges as well as semiconductor devices, i.e., metal oxide semiconductor field effect transistors (MOSFETs) that include the same. In the semiconductor devices, the gate stack structure of the present invention is located between the substrate and an overlaying gate conductor. The present invention also provides a method of fabricating the inventive gate stack structure in which a high temperature annealing process (on the order of about 800° C.) is employed. The high temperature anneal used in the present invention provides a gate stack structure that has an interface state density, as measured by charge pumping, of about 8×1010 charges/cm2 or less, a peak mobility of about 250 cm2V-s or greater and substantially no mobility degradation at about 6.0×1012 inversion charges/cm2 or greater.
摘要翻译: 本发明提供具有高移动性和低界面电荷的栅叠层结构,以及包括其的半导体器件,即金属氧化物半导体场效应晶体管(MOSFET)。 在半导体器件中,本发明的栅极堆叠结构位于衬底和覆盖栅极导体之间。 本发明还提供一种制造本发明的栅叠层结构的方法,其中采用了高温退火工艺(大约800℃)。 本发明中使用的高温退火提供了具有大约8×10 10电荷/ cm 2或更小的电荷泵浦的界面状态密度,约250cm 2 / s以上的峰值迁移率和基本上没有 约6.0×10 12反相电荷/ cm 2以上的迁移率降解。
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公开(公告)号:US08153514B2
公开(公告)日:2012-04-10
申请号:US12187767
申请日:2008-08-07
申请人: Wanda Andreoni , Alessandro C. Callegari , Eduard A. Cartier , Alessandro Curioni , Christopher P. D'Emic , Evgeni Gousev , Michael A. Gribelyuk , Paul C. Jamison , Rajarao Jammy , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Carlo A. Pignedoli , Joseph F. Shepard, Jr. , Sufi Zafar
发明人: Wanda Andreoni , Alessandro C. Callegari , Eduard A. Cartier , Alessandro Curioni , Christopher P. D'Emic , Evgeni Gousev , Michael A. Gribelyuk , Paul C. Jamison , Rajarao Jammy , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Carlo A. Pignedoli , Joseph F. Shepard, Jr. , Sufi Zafar
IPC分类号: H01L21/3205
CPC分类号: H01L21/28176 , H01L29/4908 , H01L29/4966 , H01L29/513 , H01L29/517 , H01L29/6656 , H01L29/66575 , H01L29/66772 , H01L29/7833 , H01L29/78684
摘要: The present invention provides a gate stack structure that has high mobilities and low interfacial charges as well as semiconductor devices, i.e., metal oxide semiconductor field effect transistors (MOSFETs) that include the same. In the semiconductor devices, the gate stack structure of the present invention is located between the substrate and an overlaying gate conductor. The present invention also provides a method of fabricating the inventive gate stack structure in which a high temperature annealing process (on the order of about 800° C.) is employed. The high temperature anneal used in the present invention provides a gate stack structure that has an interface state density, as measured by charge pumping, of about 8×1010 charges/cm2 or less, a peak mobility of about 250 cm2V-s or greater and substantially no mobility degradation at about 6.0×1012 inversion charges/cm2 or greater.
摘要翻译: 本发明提供具有高迁移率和低界面电荷的栅叠层结构,以及包括其的半导体器件即金属氧化物半导体场效应晶体管(MOSFET)。 在半导体器件中,本发明的栅极堆叠结构位于衬底和覆盖栅极导体之间。 本发明还提供一种制造本发明的栅叠层结构的方法,其中采用了高温退火工艺(大约800℃)。 本发明中使用的高温退火提供了一种栅极叠层结构,其具有约8×10 10电荷/ cm 2或更小的峰值迁移率,约250cm 2 / s或更大的峰迁移率的通过电荷泵浦测量的界面状态密度,以及 在大约6.0×10 12反转电荷/ cm 2或更大时基本上没有迁移率降解。
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公开(公告)号:US07115959B2
公开(公告)日:2006-10-03
申请号:US10873733
申请日:2004-06-22
申请人: Wanda Andreoni , Alessandro C. Callegari , Eduard A. Cartier , Alessandro Curioni , Christopher P. D'Emic , Evengi Gousev , Michael A. Gribelyuk , Paul C. Jamison , Rajarao Jammy , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Carlo A. Pignedoli , Joseph P. Shepard, Jr. , Sufi Zafar
发明人: Wanda Andreoni , Alessandro C. Callegari , Eduard A. Cartier , Alessandro Curioni , Christopher P. D'Emic , Evengi Gousev , Michael A. Gribelyuk , Paul C. Jamison , Rajarao Jammy , Dianne L. Lacey , Fenton R. McFeely , Vijay Narayanan , Carlo A. Pignedoli , Joseph P. Shepard, Jr. , Sufi Zafar
IPC分类号: H01L29/76 , H01L29/94 , H01L31/062 , H01L31/113 , H01L31/119
CPC分类号: H01L21/28176 , H01L29/4908 , H01L29/4966 , H01L29/513 , H01L29/517 , H01L29/6656 , H01L29/66575 , H01L29/66772 , H01L29/7833 , H01L29/78684
摘要: The present invention provides a gate stack structure that has high mobilites and low interfacial charges as well as semiconductor devices, i.e., metal oxide semiconductor field effect transistors (MOSFETs) that include the same. In the semiconductor devices, the gate stack structure of the present invention is located between the substrate and an overlaying gate conductor. The present invention also provides a method of fabricating the inventive gate stack structure in which a high temperature annealing process (on the order of about 800° C.) is employed. The high temperature anneal used in the present invention provides a gate stack structure that has an interface state density, as measured by charge pumping, of about 8×1010 charges/cm2 or less, a peak mobility of about 250 cm2/V-s or greater and substantially no mobility degradation at about 6.0×1012 inversion charges/cm2 or greater.
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6.发明授权High temperature processing compatible metal gate electrode for pFETS and methods for fabrication 有权用于pFETS的高温处理兼容金属栅电极及其制造方法公开(公告)号:US07863083B2
公开(公告)日:2011-01-04
申请号:US12197845
申请日:2008-08-25
申请人: Ricky Amos , Douglas A. Buchanan , Cyril Cabral, Jr. , Alessandro C. Callegari , Supratik Guha , Hyungjun Kim , Fenton R. McFeely , Vijay Narayanan , Kenneth P. Rodbell , John J. Yurkas
发明人: Ricky Amos , Douglas A. Buchanan , Cyril Cabral, Jr. , Alessandro C. Callegari , Supratik Guha , Hyungjun Kim , Fenton R. McFeely , Vijay Narayanan , Kenneth P. Rodbell , John J. Yurkas
IPC分类号: H01L21/00 , H01L21/76 , H01L21/266 , H01L21/425
CPC分类号: H01L29/495 , H01L21/28079 , H01L21/3003
摘要: A method for fabricating a CMOS gate electrode by using Re, Rh, Pt, Ir or Ru metal and a CMOS structure that contains such gate electrodes are described. The work functions of these metals make them compatible with current pFET requirements. For instance, the metal can withstand the high hydrogen pressures necessary to produce properly passivated interfaces without undergoing chemical changes. The thermal stability of the metal on dielectric layers such as SiO2, Al2O3 and other suitable dielectric materials makes it compatible with post-processing temperatures up to 1000° C. A low temperature/low pressure CVD technique with Re2(CO)10 as the source material is used when Re is to be deposited.
摘要翻译: 描述了通过使用Re,Rh,Pt,Ir或Ru金属制造CMOS栅电极的方法和包含这种栅电极的CMOS结构。 这些金属的工作功能使其与当前的pFET要求兼容。 例如,金属可以承受生产适当钝化界面而不经历化学变化所需的高氢气压力。 金属在介电层上的热稳定性如SiO 2,Al 2 O 3和其它合适的介电材料使其与后处理温度高达1000℃相兼容。具有Re2(CO)10作为源的低温/低压CVD技术 当Re沉积时使用材料。
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7.发明申请High Temperature Processing Compatible Metal Gate Electrode For pFETS and Methods For Fabrication 有权用于pFET的高温加工兼容金属栅电极和制造方法公开(公告)号:US20080311745A1
公开(公告)日:2008-12-18
申请号:US12197845
申请日:2008-08-25
申请人: Ricky Amos , Douglas A. Buchanan , Cyril Cabral, JR. , Alessandro C. Callegari , Supratik Guha , Hyungjun Kim , Fenton R. McFeely , Vijay Narayanan , Kenneth P. Rodbell , John J. Yurkas
发明人: Ricky Amos , Douglas A. Buchanan , Cyril Cabral, JR. , Alessandro C. Callegari , Supratik Guha , Hyungjun Kim , Fenton R. McFeely , Vijay Narayanan , Kenneth P. Rodbell , John J. Yurkas
IPC分类号: H01L21/44
CPC分类号: H01L29/495 , H01L21/28079 , H01L21/3003
摘要: A method for fabricating a CMOS gate electrode by using Re, Rh, Pt, Ir or Ru metal and a CMOS structure that contains such gate electrodes are described. The work functions of these metals make them compatible with current pFET requirements. For instance, the metal can withstand the high hydrogen pressures necessary to produce properly passivated interfaces without undergoing chemical changes. The thermal stability of the metal on dielectric layers such as SiO2, Al2O3 and other suitable dielectric materials makes it compatible with post-processing temperatures up to 1000° C. A low temperature/low pressure CVD technique with Re2(CO)10 as the source material is used when Re is to be deposited.
摘要翻译: 描述了通过使用Re,Rh,Pt,Ir或Ru金属制造CMOS栅电极的方法和包含这种栅电极的CMOS结构。 这些金属的工作功能使其与当前的pFET要求兼容。 例如,金属可以承受生产适当钝化界面而不经历化学变化所需的高氢气压力。 金属在介电层上的热稳定性如SiO 2,Al 2 O 3和其它合适的介电材料使其与后处理温度高达1000℃相兼容。具有Re2(CO)10作为源的低温/低压CVD技术 当Re沉积时使用材料。
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公开(公告)号:US07776701B2
公开(公告)日:2010-08-17
申请号:US12190129
申请日:2008-08-12
申请人: Alessandro C. Callegari , Michael A. Gribelyuk , Vijay Narayanan , Vamsi K. Paruchuri , Sufi Zafar
发明人: Alessandro C. Callegari , Michael A. Gribelyuk , Vijay Narayanan , Vamsi K. Paruchuri , Sufi Zafar
IPC分类号: H01L21/336 , H01L21/3205 , H01L21/469 , H01L21/31 , H01L21/8234
CPC分类号: H01L21/28088 , H01L21/823828 , H01L29/4908 , H01L29/4966 , H01L29/513 , H01L29/517 , H01L29/518
摘要: A compound metal comprising MOxNy which is a p-type metal having a workfunction of about 4.75 to about 5.3, preferably about 5, eV that is thermally stable on a gate stack comprising a high k dielectric and an interfacial layer is provided as well as a method of fabricating the MOxNy compound metal. Furthermore, the MOxNy metal compound of the present invention is a very efficient oxygen diffusion barrier at 1000° C. allowing very aggressive equivalent oxide thickness (EOT) and inversion layer thickness scaling below 14 Å in a p-metal oxide semiconductor (pMOS) device. In the above formula, M is a metal selected from Group IVB, VB, VIB or VIIB of the Periodic Table of Elements, x is from about 5 to about 40 atomic % and y is from about 5 to about 40 atomic %.
摘要翻译: 包含MoxNy的复合金属是具有在包括高k电介质和界面层的栅叠层上热稳定的功函数为约4.75至约5.3,优选约5e的功函数的p型金属,以及 制造MOxNy复合金属的方法。 此外,本发明的MOxNy金属化合物在1000℃下是非常有效的氧扩散阻挡层,允许在p金属氧化物半导体(pMOS)器件中非常有侵蚀性的等效氧化物厚度(EOT)和低于14的反型层厚度标度 。 在上式中,M是选自元素周期表第IVB,VB,VIB或VIIB族的金属,x为约5至约40原子%,y为约5至约40原子%。
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公开(公告)号:US20080299730A1
公开(公告)日:2008-12-04
申请号:US12190129
申请日:2008-08-12
申请人: Alessandro C. Callegari , Michael A. Gribelyuk , Vijay Narayanan , Vamsi K. Paruchuri , Sufi Zafar
发明人: Alessandro C. Callegari , Michael A. Gribelyuk , Vijay Narayanan , Vamsi K. Paruchuri , Sufi Zafar
IPC分类号: H01L21/336 , C23C14/34
CPC分类号: H01L21/28088 , H01L21/823828 , H01L29/4908 , H01L29/4966 , H01L29/513 , H01L29/517 , H01L29/518
摘要: A compound metal comprising MOxNy which is a p-type metal having a workfunction of about 4.75 to about 5.3, preferably about 5, eV that is thermally stable on a gate stack comprising a high k dielectric and an interfacial layer is provided as well as a method of fabricating the MOxNy compound metal. Furthermore, the MOxNy metal compound of the present invention is a very efficient oxygen diffusion barrier at 1000° C. allowing very aggressive equivalent oxide thickness (EOT) and inversion layer thickness scaling below 14 Å in a p-metal oxide semiconductor (pMOS) device. In the above formula, M is a metal selected from Group IVB, VB, VIB or VIIB of the Periodic Table of Elements, x is from about 5 to about 40 atomic % and y is from about 5 to about 40 atomic %.
摘要翻译: 包含MoxNy的复合金属是具有在包括高k电介质和界面层的栅叠层上热稳定的功函数为约4.75至约5.3,优选约5e的功函数的p型金属,以及 制造MOxNy复合金属的方法。 此外,本发明的MOxNy金属化合物在1000℃下是非常有效的氧扩散阻挡层,允许在p金属氧化物半导体(pMOS)器件中非常有侵蚀性的等效氧化物厚度(EOT)和低于14的反型层厚度标度 。 在上式中,M是选自元素周期表第IVB,VB,VIB或VIIB族的金属,x为约5至约40原子%,y为约5至约40原子%。
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公开(公告)号:US07436034B2
公开(公告)日:2008-10-14
申请号:US11311455
申请日:2005-12-19
申请人: Alessandro C. Callegari , Michael A. Gribelyuk , Vijay Narayanan , Vamsi K. Paruchuri , Sufi Zafar
发明人: Alessandro C. Callegari , Michael A. Gribelyuk , Vijay Narayanan , Vamsi K. Paruchuri , Sufi Zafar
IPC分类号: H01L21/00
CPC分类号: H01L21/28088 , H01L21/823828 , H01L29/4908 , H01L29/4966 , H01L29/513 , H01L29/517 , H01L29/518
摘要: A compound metal comprising MOxNy which is a p-type metal having a workfunction of about 4.75 to about 5.3, preferably about 5, eV that is thermally stable on a gate stack comprising a high k dielectric and an interfacial layer is provided as well as a method of fabricating the MOxNy compound metal. Furthermore, the MOxNy metal compound of the present invention is a very efficient oxygen diffusion barrier at 1000° C. allowing very aggressive equivalent oxide thickness (EOT) and inversion layer thickness scaling below 14 Å in a p-metal oxide semiconductor (PMOS) device. In the above formula, M is a metal selected from Group IVB, VB, VIB or VIIB of the Periodic Table of Elements, x is from about 5 to about 40 atomic % and y is from about 5 to about 40 atomic %.
摘要翻译: 一种复合金属,其包含具有约4.75至约5.3,优选约5eV的功函数的p型金属,其在一个或多个金属上是热稳定的 提供了包括高k电介质和界面层的栅极叠层以及制造复合金属的方法。 此外,本发明的金属氧化物金属化合物在1000℃下是非常有效的氧扩散阻挡层,允许非常有效的等效氧化物厚度(EOT)和反演 在p-金属氧化物半导体(PMOS)器件中的层厚度缩小到14埃以下。 在上式中,M是选自元素周期表第IVB,VB,VIB或VIIB族的金属,x为约5至约40原子%,y为约5至约40原子%。
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