Patents by Inventor Nasreen Gazala Chapra
Nasreen Gazala Chapra has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7227244Abstract: A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to provide low k dielectric layers that can replace etch stop layers or conventional dielectric layers in damascene applications. A dual damascene structure having two or more dielectric layers with dielectric constants lower than about 4 can be deposited in a single reactor and then etched to form vertical and horizontal interconnects by varying the concentration of a carbon:oxygen gas such as carbon monoxide. The etch gases for forming vertical interconnects preferably comprises CO and a fluorocarbon, and CO is preferably excluded from etch gases for forming horizontal interconnects.Type: GrantFiled: August 24, 2004Date of Patent: June 5, 2007Assignee: Applied Materials, Inc.Inventors: Claes H. Bjorkman, Melissa Min Yu, Hongquing Shan, David W. Cheung, Wai-Fan Yau, Kuowei Liu, Nasreen Gazala Chapra, Gerald Yin, Farhad K. Moghadam, Judy H. Huang, Dennis Yost, Betty Tang, Yunsang Kim
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Patent number: 6858153Abstract: A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to provide low k dielectric layers that can replace etch stop layers or conventional dielectric layers in damascene applications. A dual damascene structure having two or more dielectric layers with dielectric constants lower than about 4 can be deposited in a single reactor and then etched to form vertical and horizontal interconnects by varying the concentration of a carbon:oxygen gas such as carbon monoxide. The etch gases for forming vertical interconnects preferably comprises CO and a fluorocarbon, and CO is preferably excluded from etch gases for forming horizontal interconnects.Type: GrantFiled: November 5, 2001Date of Patent: February 22, 2005Assignee: Applied Materials Inc.Inventors: Claes H. Bjorkman, Min Melissa Yu, Hongquing Shan, David W. Cheung, Wai-Fan Yau, Kuowei Liu, Nasreen Gazala Chapra, Gerald Yin, Farhad K. Moghadam, Judy H. Huang, Dennis Yost, Betty Tang, Yunsang Kim
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Patent number: 6669858Abstract: A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to provide low k dielectric layers that can replace etch stop layers or conventional dielectric layers in damascene applications. A dual damascene structure having two or more dielectric layers with dielectric constants lower than about 4 can be deposited in a single reactor and then etched to form vertical and horizontal interconnects by varying the concentration of a carbon:oxygen gas such as carbon monoxide. The etch gases for forming vertical interconnects preferably comprises CO and a fluorocarbon, and CO is preferably excluded from etch gases for forming horizontal interconnects.Type: GrantFiled: November 5, 2001Date of Patent: December 30, 2003Assignee: Applied Materials Inc.Inventors: Claes H. Bjorkman, Min Melissa Yu, Hongquing Shan, David W. Cheung, Wai-Fan Yau, Kuowei Liu, Nasreen Gazala Chapra, Gerald Yin, Farhad K. Moghadam, Judy H. Huang, Dennis Yost, Betty Tang, Yunsang Kim
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Publication number: 20020084257Abstract: A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to provide low k dielectric layers that can replace etch stop layers or conventional dielectric layers in damascene applications. A dual damascene structure having two or more dielectric layers with dielectric constants lower than about 4 can be deposited in a single reactor and then etched to form vertical and horizontal interconnects by varying the concentration of a carbon:oxygen gas such as carbon monoxide. The etch gases for forming vertical interconnects preferably comprises CO and a fluorocarbon, and CO is preferably excluded from etch gases for forming horizontal interconnects.Type: ApplicationFiled: November 5, 2001Publication date: July 4, 2002Applicant: Applied Materials, Inc.Inventors: Claes H. Bjorkman, Melissa Min Yu, Hongqing Shan, David W. Cheung, Wai-Fan Yau, Kuowei Liu, Nasreen Gazala Chapra, Gerald Yin, Farhad K. Moghadam, Judy H. Huang, Dennis Yost, Betty Tang, Yunsang Kim
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Publication number: 20020074309Abstract: A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to provide low k dielectric layers that can replace etch stop layers or conventional dielectric layers in damascene applications. A dual damascene structure having two or more dielectric layers with dielectric constants lower than about 4 can be deposited in a single reactor and then etched to form vertical and horizontal interconnects by varying the concentration of a carbon:oxygen gas such as carbon monoxide. The etch gases for forming vertical interconnects preferably comprises CO and a fluorocarbon, and CO is preferably excluded from etch gases for forming horizontal interconnects.Type: ApplicationFiled: November 5, 2001Publication date: June 20, 2002Applicant: Applied Materials, Inc.Inventors: Claes H. Bjorkman, Melissa Min Yu, Hongqing Shan, David W. Cheung, Wai-Fan Yau, Kuowei Liu, Nasreen Gazala Chapra, Gerald Yin, Farhad K. Moghadam, Judy H. Huang, Dennis Yost, Betty Tang, Yunsang Kim
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Patent number: 6340435Abstract: A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to provide low k dielectric layers that can replace etch stop layers or conventional dielectric layers in damascene applications. A dual damascene structure having two or more dielectric layers with dielectric constants lower than about 4 can be deposited in a single reactor and then etched to form vertical and horizontal interconnects by varying the concentration of a carbon:oxygen gas such as carbon monoxide. The etch gases for forming vertical interconnects preferably comprises CO and a fluorocarbon, and CO is preferably excluded from etch gases for forming horizontal interconnects.Type: GrantFiled: June 9, 1999Date of Patent: January 22, 2002Assignee: Applied Materials, Inc.Inventors: Claes H. Bjorkman, Min Melissa Yu, Hongquing Shan, David W. Cheung, Wai-Fan Yau, Kuowei Liu, Nasreen Gazala Chapra, Gerald Yin, Farhad K. Moghadam, Judy H. Huang, Dennis Yost, Betty Tang, Yunsang Kim