Membrane dielectric isolation transistor fabrication
First Claim
Patent Images
1. A field effect transistor comprising:
- a dielectric membrane having a surface tensile stress of 2 to 100 times less than the fracture strength of the dielectric and having a principal surface;
a semiconductor film formed on the principal surface of the membrane, the semiconductor film including at least three doped layers;
a contact to a first of the three doped layers formed through the membrane;
a contact to a second of the doped layers formed on a principal surface of the semiconductor film;
an insulating layer formed over an edge of the semiconductor film; and
a gate electrode formed overlying the insulating layer.
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Accused Products
Abstract
General purpose methods for the fabrication of integrated circuits from flexible membranes formed of very thin low stress dielectric materials, such as silicon dioxide or silicon nitride, and semiconductor layers. Semiconductor devices are formed in a semiconductor layer of the membrane. The semiconductor membrane layer is initially formed from a substrate of standard thickness, and all but a thin surface layer of the substrate is then etched or polished away. In another version, the flexible membrane is used as support and electrical interconnect for conventional integrated circuit die bonded thereto, with the interconnect formed in multiple layers in the membrane. Multiple die can be connected to one such membrane, which is then packaged as a multi-chip module. Other applications are based on (circuit) membrane processing for bipolar and MOSFET transistor fabrication, low impedance conductor interconnecting fabrication, flat panel displays, maskless (direct write) lithography, and 3D IC fabrication.
354 Citations
7 Claims
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1. A field effect transistor comprising:
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a dielectric membrane having a surface tensile stress of 2 to 100 times less than the fracture strength of the dielectric and having a principal surface; a semiconductor film formed on the principal surface of the membrane, the semiconductor film including at least three doped layers; a contact to a first of the three doped layers formed through the membrane; a contact to a second of the doped layers formed on a principal surface of the semiconductor film; an insulating layer formed over an edge of the semiconductor film; and a gate electrode formed overlying the insulating layer.
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2. A field effect transistor comprising:
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a flexible dielectric membrane having a principal surface; a semiconductor film formed on the principal surface of the membrane, the semiconductor film including at least three doped layers, wherein a portion of the third layer extends over edges of the first and second layers; a contact to a first of the three doped layers formed through the membrane; a contact to a second of the doped layers formed on a principal surface of the semiconductor film; an insulating layer formed over an edge of the semiconductor film; and a gate electrode formed overlying the insulating layer.
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3. A field effect transistor comprising:
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a flexible dielectric membrane having a principal surface; a semiconductor film formed on the principal surface of the membrane, the semiconductor film including at least three doped layers, wherein the third of the three layers is located intermediate of the first and second layers, and a portion of the third layer extends over edges of the first and second layers; a contact to a first of the three doped layers formed through the membrane; a contact to a second of the doped layers formed on a principal surface of the semiconductor film; an insulating layer formed over an edge of the semiconductor film; and a gate electrode formed overlying the insulating layer, wherein the gate electrode overlies the extended portion of the third layer.
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4. A bipolar transistor comprising:
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a flexible free-standing dielectric membrane having a principal surface and a thickness less than 50 μ
m;a semiconductor film formed on the principal surface and including at least three doped regions; a contact to the first of the three regions formed through the membrane; and contacts to the second and third regions. - View Dependent Claims (5)
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6. A field effect transistor comprising:
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a flexible free-standing dielectric membrane having a principal surface and a thickness less than 50 μ
m;a first doped semiconductor layer region formed on the membrane; a second doped semiconductor layer region formed on the membrane; an epitaxial layer region formed on the membrane adjacent the first and second semiconductor layer regions; a first contact to the first semiconductor layer region; a second contact to the second semiconductor layer region; an insulating layer formed over an edge of the epitaxial layer region; and a gate electrode overlying the insulating layer. - View Dependent Claims (7)
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Specification
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Current AssigneeTaiwan Semiconductor Manufacturing Company Limited
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Original AssigneeELM TECHNOLOGY CORPORATION
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InventorsLeedy, Glenn J.
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Primary Examiner(s)Monin, Jr., Donald L.
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Application NumberUS08/484,029Time in Patent Office580 DaysField of Search357/347, 357/254, 357/328, 357/329, 357/334, 357/415, 357/416, 357/417, 357/418, 357/419, 257/508, 257/587, 257/661, 257/663, 257/781US Class Current257/347CPC Class CodesG02F 1/13452 Conductors connecting drive...G02F 1/136281 having a transmissive semic...G03F 7/70658 Electrical testingG11C 29/006 at wafer scale level, i.e. ...H01L 21/762 Dielectric regions , e.g. E...H01L 21/76264 SOI together with lateral i...H01L 21/76289 Lateral isolation by air gapH01L 21/764 Air gaps H01L21/76264 takes...H01L 21/8221 Three dimensional integrate...H01L 2224/0401 Bonding areas specifically ...H01L 2224/05552 in top viewH01L 2224/0557 the external layer being di...H01L 2224/13009 Bump connector integrally f...H01L 2224/16225 the item being non-metallic...H01L 2224/16227 the bump connector connecti...H01L 2224/80001 by connecting a bonding are...H01L 23/538 the interconnection structu...H01L 23/5381 Crossover interconnections,...H01L 23/5383 Multilayer substrates H01L2...H01L 23/5386 Geometry or layout of the i...View All
