Patents Assigned to Brewer Science Inc.
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Publication number: 20110223524Abstract: This invention provides methods of creating via or trench structures on a developer-soluble hardmask layer using a multiple exposure-development process. The hardmask layer is patterned while the imaging layer is developed. After the imaging layer is stripped using organic solvents, the same hardmask can be further patterned using subsequent exposure-development processes. Eventually, the pattern can be transferred to the substrate using an etching process.Type: ApplicationFiled: May 24, 2011Publication date: September 15, 2011Applicant: BREWER SCIENCE INC.Inventors: Sam X. Sun, Hao Xu, Tony D. Flaim
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Patent number: 7998318Abstract: A via and contact hole fill composition and method for using the composition in the dual damascene production of circuits is provided. Broadly, the fill compositions include a quantity of solid components including a polymer binder and a solvent system for the solid components. The boiling point of the solvent system is less than the cross-linking temperature of the composition. Preferred solvents for use in the solvent system include those selected from the group consisting of alcohols, ethers, glycol ethers, amides, ketones, and mixtures thereof. Preferred polymer binders are those having an aliphatic backbone and a molecular weight of less than about 80,000, with polyesters being particularly preferred.Type: GrantFiled: October 13, 2004Date of Patent: August 16, 2011Assignee: Brewer Science Inc.Inventors: James E. Lamb, III, Xie Shao
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Publication number: 20110171478Abstract: New compositions and methods of using those compositions as protective layers during the production of semiconductor and MEMS devices are provided. The compositions comprise a cycloolefin copolymer dispersed or dissolved in a solvent system, and can be used to form layers that protect a substrate during acid etching and other processing and handling. The protective layer can be photosensitive or non-photosensitive, and can be used with or without a primer layer beneath the protective layer. Preferred primer layers comprise a basic polymer in a solvent system.Type: ApplicationFiled: March 5, 2010Publication date: July 14, 2011Applicant: BREWER SCIENCE INC.Inventors: Tingji Tang, Gu Xu, Xing-Fu Zhong, Wenbin Hong, Tony D. Flaim, Kimberly Yess, Ramachandran K. Trichur
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Patent number: 7976894Abstract: Novel materials with thermally reversible curing mechanisms are provided. These inventive compositions are useful in forming microelectronic structures, such as dual damascene structures. The compositions comprise a crosslinkable polymer dispersed or dissolved in a solvent system with a crosslinking agent. In use, the compositions are applied to a substrate and crosslinked. Additional layers may be applied on top of the cured layer followed by additional processing steps. Upon exposure to a temperature above the crosslinking temperature of the composition, the cured layer will undergo a decrosslinking reaction to render the layer soluble in common photoresist solvents, including solvents used to make the composition itself. Thus, after processing, the remaining material can be dissolved away without damaging the substrate. The inventive materials are especially suited for processes involving low-k dielectric substrates.Type: GrantFiled: November 13, 2008Date of Patent: July 12, 2011Assignee: Brewer Science Inc.Inventors: Daniel M. Sullivan, Marc W. Weimer
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Patent number: 7939244Abstract: New hardmask compositions comprising non-polymeric, metal-containing nanoparticles dispersed or dissolved in a solvent system and methods of using those compositions as hardmask layers in microelectronic structures are provided. The compositions are photosensitive and capable of being rendered developer soluble upon exposure to radiation. The inventive hardmask layer is patterned simultaneously with the photoresist layer and provides plasma etch resistance for subsequent pattern transfer.Type: GrantFiled: April 21, 2009Date of Patent: May 10, 2011Assignee: Brewer Science Inc.Inventors: Hao Xu, Ramil-Marcelo L. Mercado, Douglas J. Guerrero
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Patent number: 7935780Abstract: New compositions and methods of using those compositions as bonding compositions are provided. The compositions are preferably thermoplastic and comprise imides, amideimides, and/or amideimide-siloxanes (either in polymeric or oligomeric form) dispersed or dissolved in a solvent system, and can be used to bond an active wafer to a carrier wafer or substrate to assist in protecting the active wafer and its active sites during subsequent processing and handling. The compositions form bonding layers that are chemically and thermally resistant, but that can also be softened to allow the wafers to slide apart at the appropriate stage in the fabrication process.Type: GrantFiled: June 25, 2008Date of Patent: May 3, 2011Assignee: Brewer Science Inc.Inventors: Wenbin Hong, Sunil K. Pillalamarri
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Publication number: 20110086955Abstract: New compositions and methods of using those compositions as bonding compositions are provided. The compositions comprise a cycloolefin copolymer dispersed or dissolved in a solvent system, and can be used to bond an active wafer to a carrier wafer or substrate to assist in protecting the active wafer and its active sites during subsequent processing and handling. The compositions form bonding layers that are chemically and thermally resistant, but that can also be softened or dissolved to allow the wafers to slide or be pulled apart at the appropriate stage in the fabrication process.Type: ApplicationFiled: December 15, 2010Publication date: April 14, 2011Applicant: BREWER SCIENCE INC.Inventors: Wenbin Hong, Dongshun Bai, Tony D. Flaim, Rama Puligadda
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Patent number: 7914974Abstract: Novel methods of double patterning a photosensitive resin composition are provided. The methods involve applying the photosensitive composition to a substrate and thermally crosslinking the composition. The crosslinked layer can be used to provide reflection control. Upon exposure to light, the crosslinked polymer (or oligomer or monomer) in the compositions will decrosslink, rendering the light-exposed portions soluble in typical photoresist developing solutions (e.g., alkaline developers). Advantageously, the crosslinked portions of the composition remain insoluble in the solvent used to form the photosensitive composition. As a result, the coating, lithographic, and or developing steps can be repeated multiple times in varying order, depending upon the particular process, without destroying earlier-formed patterns.Type: GrantFiled: August 15, 2007Date of Patent: March 29, 2011Assignee: Brewer Science Inc.Inventors: Douglas J. Guerrero, Ramil-Marcelo L. Mercado
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Publication number: 20110069467Abstract: New temporary bonding methods and articles formed from those methods are provided. The methods comprise bonding a device wafer to a carrier wafer or substrate only at their outer perimeters in order to assist in protecting the device wafer and its device sites during subsequent processing and handling. The edge bonds formed by this method are chemically and thermally resistant, but can also be softened, dissolved, or mechanically disrupted to allow the wafers to be easily separated with very low forces and at or near room temperature at the appropriate stage in the fabrication process.Type: ApplicationFiled: November 22, 2010Publication date: March 24, 2011Applicant: BREWER SCIENCE INC.Inventors: Tony D. Flaim, Jeremy McCutcheon
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Publication number: 20110065257Abstract: New compositions and methods of using those compositions as bonding compositions are provided. The compositions are preferably thermoplastic and comprise imides, amideimides, and/or amideimide-siloxanes (either in polymeric or oligomeric form) dispersed or dissolved in a solvent system, and can be used to bond an active wafer to a carrier wafer or substrate to assist in protecting the active wafer and its active sites during subsequent processing and handling. The compositions form bonding layers that are chemically and thermally resistant, but that can also be softened to allow the wafers to slide apart at the appropriate stage in the fabrication process.Type: ApplicationFiled: November 18, 2010Publication date: March 17, 2011Applicant: BREWER SCIENCE INC.Inventors: Wenbin Hong, Sunil K. Pillalamarri
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Publication number: 20110062604Abstract: Scratch-resistant coatings for protecting front-side microelectromechanical and semiconductor device features during backside processing are provided, along with methods of using the same. The coatings are non-photosensitive, removable, and tolerate high processing temperatures. These coatings also eliminate the need for a separate etch stop layer in the device design. The coatings are formed from a composition comprising a component dissolved or dispersed in a solvent system. The component is selected from the group consisting of styrene-acrylonitrile copolymers and aromatic sulfone polymers.Type: ApplicationFiled: September 15, 2010Publication date: March 17, 2011Applicant: BREWER SCIENCE INC.Inventors: Kimberly A. Yess, Madison M. Daily, JR., Tony D. Flaim
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Patent number: 7833692Abstract: Novel, poison-blocking compositions and methods of using those compositions to form poison-blocking layers are provided. The compositions comprise a typical composition used in microlithographic processes, but with a poison-blocking additive included in that composition. The preferred additive is a compound comprising one or more blocked isocyanates. Upon heating to certain temperatures, the blocking group is released from the isocyanate, leaving behind a moiety that is highly reactive with the poisonous amines generated by typical dielectric layers.Type: GrantFiled: March 6, 2008Date of Patent: November 16, 2010Assignee: Brewer Science Inc.Inventor: Marc W. Weimer
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Patent number: 7803458Abstract: Novel compositions and methods of using those compositions to form metal oxide films or coatings are provided. The compositions comprise an organometallic oligomer and an organic polymer or oligomer dispersed or dissolved in a solvent system. The compositions have long shelf lives and can be prepared by easy and reliable preparation procedures. The compositions can be cured to cause conversion of the composition into films of metal oxide interdispersed with organic polymer or oligomer. The cured films have high refractive indices, high optical clarities, and good mechanical stabilities at film thicknesses of greater than about 1 ?m.Type: GrantFiled: October 7, 2005Date of Patent: September 28, 2010Assignee: Brewer Science Inc.Inventors: Tony D. Flaim, Yubao Wang, Ramil-Marcelo L. Mercado
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Patent number: 7790231Abstract: An improved apparatus (20) and method are provided for effective, high speed contact planarization of coated curable substrates such as microelectronic devices to achieve very high degrees of planarization. The apparatus (20) includes a planarizing unit (28) preferably having an optical flat flexible sheet (88) and a backup optical flat body (82), and a curing assembly (30). In operation, a substrate (78) having a planarizable coating (76) is placed within a vacuum chamber (26) beneath sheet (88) and body (82). A pressure differential is created across sheet (88) so as to deflect the sheet into contact with a central region C of the coating (76), whereupon the coating (76) is brought into full planarizing contact with sheet (88) and body (82) by means of a support (114) and vacuum chuck (120); at this point the coating (76) is cured using assembly (30).Type: GrantFiled: July 8, 2004Date of Patent: September 7, 2010Assignee: Brewer Science Inc.Inventors: Jeremy McCutcheon, James E. Lamb, III
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Publication number: 20100213580Abstract: Acid-sensitive, developer-soluble bottom anti-reflective coating compositions are provided, along with methods of using such compositions and microelectronic structures formed thereof. The compositions preferably comprise a crosslinkable polymer dissolved or dispersed in a solvent system. The polymer preferably comprises recurring monomeric units having adamantyl groups. The compositions also preferably comprise a crosslinker, such as a vinyl ether crosslinking agent, dispersed or dissolved in the solvent system with the polymer. In some embodiments, the composition can also comprise a photoacid generator (PAG) and/or a quencher. The bottom anti-reflective coating compositions are thermally crosslinkable, but can be decrosslinked in the presence of an acid to be rendered developer soluble.Type: ApplicationFiled: February 19, 2010Publication date: August 26, 2010Applicant: BREWER SCIENCE INC.Inventors: Jim D. Meador, Joyce A. Lowes, Ramil-Marcelo L. Mercado
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Publication number: 20100206479Abstract: New compositions and methods of using those compositions as bonding compositions are provided. The compositions comprise a polymer dispersed or dissolved in a solvent system, and can be used to bond an active wafer to a carrier wafer or substrate to assist in protecting the active wafer and its active sites during subsequent processing and handling. The compositions form bonding layers that are chemically and thermally resistant, but that can also be softened to allow the wafers to slide apart at the appropriate stage in the fabrication process.Type: ApplicationFiled: April 29, 2010Publication date: August 19, 2010Applicant: BREWER SCIENCE INC.Inventors: Sunil K. Pillalamarri, Chenghong Li
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Patent number: 7775785Abstract: A contact planarization apparatus includes a lower membrane assembly, an upper membrane assembly, a differential pressure assembly, and a curing or reflowing assembly. The lower membrane assembly supports a substrate to be planarized and biases it toward the upper membrane assembly under the influence of the pressure differential assembly. The upper membrane assembly planarizes the coating on the substrate under the influence of the differential pressure assembly and includes a flexible sheet which is supported above the substrate stage and below the curing or reflowing assembly via a vacuum force applied by the differential pressure assembly. The differential pressure assembly moves the lower and upper membrane assemblies relative to one another to planarize the coating on the substrate entirely through the application of vacuum and pressure forces.Type: GrantFiled: December 20, 2006Date of Patent: August 17, 2010Assignee: Brewer Science Inc.Inventors: Jeremy W. McCutcheon, Robert D. Brown
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Patent number: 7758913Abstract: New protective coating layers for use in wet etch processes during the production of semiconductor and MEMS devices are provided. The layers include a primer layer, a first protective layer, and an optional second protective layer. The primer layer preferably comprises an organo silane compound in a solvent system. The first protective layer includes thermoplastic copolymers prepared from styrene, acrylonitrile, and optionally other addition-polymerizable monomers such as (meth)acrylate monomers, vinylbenzyl chloride, and diesters of maleic acid or fumaric acid. The second protective layer comprises a highly halogenated polymer such as a chlorinated polymer which may or may not be crosslinked upon heating.Type: GrantFiled: June 30, 2006Date of Patent: July 20, 2010Assignee: Brewer Science Inc.Inventors: Chenghong Li, Kimberly A. Ruben, Tony D. Flaim
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Patent number: 7754818Abstract: New anti-reflective or fill compositions having improved flow properties are provided. The compositions comprise a dendritic polymer dispersed or dissolved in a solvent system, and preferably a light attenuating compound, a crosslinking agent, and a catalyst. The inventive compositions can be used to protect contact or via holes from degradation during subsequent etching in the dual damascene process. The inventive compositions can also be applied to substrates (e.g., silicon wafers) to form anti-reflective coating layers having high etch rates which minimize or prevent reflection during subsequent photoresist exposure and developing.Type: GrantFiled: January 11, 2005Date of Patent: July 13, 2010Assignee: Brewer Science Inc.Inventors: Chelladurai Devadoss, Mandar Bhave, Runhui Huang
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Publication number: 20100170868Abstract: Novel double- and triple-patterning methods are provided. The methods involve applying a shrinkable composition to a patterned template structure (e.g., a structure having lines) and heating the composition. The shrinkable composition is selected to possess properties that will cause it to shrink during heating, thus forming a conformal layer over the patterned template structure. The layer is then etched to leave behind pre-spacer structures, which comprise the features from the pattern with remnants of the shrinkable composition adjacent the feature sidewalls. The features are removed, leaving behind a doubled pattern. In an alternative embodiment, an extra etch step can be carried out prior to formation of the features on the template structure, thus allowing the pattern to be tripled rather than doubled.Type: ApplicationFiled: January 5, 2010Publication date: July 8, 2010Applicant: BREWER SCIENCE INC.Inventors: Qin Lin, Rama Puligadda, James Claypool, Douglas J. Guerrero, Brian Smith