Patent application number | Description | Published |
20080213707 | Graded Spin-on Organic Antireflective Coating for Photolithography - An antireflective coating that contains at least two polymer components and comprises chromophore moieties and transparent moieties is provided. The antireflective coating is useful for providing a single-layer composite graded antireflective coating formed beneath a photoresist layer. | 09-04-2008 |
20080254633 | MULTIPLE EXPOSURE LITHOGRAPHY METHOD INCORPORATING INTERMEDIATE LAYER PATTERNING - A method of patterning a semiconductor substrate includes creating a first set of patterned features in a first inorganic layer; creating a second set of patterned features in one of the first inorganic layer and a second inorganic layer; and transferring, into an organic underlayer, both the first and second sets of patterned features, wherein the first and second sets of patterned features are combined into a composite set of patterned features that are transferable into the substrate by using the organic underlayer as a mask. | 10-16-2008 |
20080311508 | PROCESS OF MAKING A SEMICONDUCTOR DEVICE USING MULTIPLE ANTIREFLECTIVE MATERIALS - A lithographic structure consisting essentially of: an organic antireflective material disposed on a substrate; a vapor-deposited RCHX material, wherein R is one or more elements selected from the group consisting of Si, Ge, B, Sn, Fe and Ti, and wherein X is not present or is one or more elements selected from the group consisting of O, N, S and F; and a photoresist material disposed on the RCHX material. The invention is also directed to methods of making the lithographic structure, and using the structure to pattern a substrate. | 12-18-2008 |
20090061355 | PROCESS OF MAKING A LITHOGRAPHIC STRUCTURE USING ANTIREFLECTIVE MATERIALS - A lithographic structure comprising: an organic antireflective material disposed on a substrate; and a silicon antireflective material disposed on the organic antireflective material. The silicon antireflective material comprises a crosslinked polymer with a SiO | 03-05-2009 |
20090087755 | PHOTOMASK AND METHOD OF MAKING THEREOF - The disclosure is related to photomasks used in photolithography and methods of making photomasks. The method involves providing a transparent substrate with one or more reflective films disposed over a surface of the substrate, applying a photoresist to the solution-contacted reflective film and forming a pattern in the photoresist that is transferred to the substrate, and developing the pattern on the substrate by removing the remaining portions of the photoresist. The substrate carrying the patterned reflective film is then contacted with a solution comprising oxyanions. The disclosure is also related to photomasks made using the disclosed method. | 04-02-2009 |
20090104566 | Process of multiple exposures with spin castable film - Methods of multiple exposure in the fields of deep ultraviolet photolithography, next generation lithography, and semiconductor fabrication comprise a spin-castable methodology for enabling multiple patterning by completing a standard lithography process for the first exposure, followed by spin casting an etch selective overcoat layer, applying a second photoresist, and subsequent lithography. Utilizing the etch selectivity of each layer, provides a cost-effective, high resolution patterning technique. The invention comprises a number of double or multiple patterning techniques, some aimed at achieving resolution benefits, as well as others that achieve cost savings, or both resolution and cost savings. These techniques include, but are not limited to, pitch splitting techniques, pattern decomposition techniques, and dual damascene structures. | 04-23-2009 |
20090186294 | ORGANIC GRADED SPIN ON BARC COMPOSITIONS FOR HIGH NA LITHOGRAPHY - An antireflective coating that contains at least two polymer components and comprises chromophore moieties and transparent moieties is provided. The antireflective coating is useful for providing a single-layer composite graded antireflective coating formed beneath a photoresist layer. | 07-23-2009 |
20090186427 | CHARACTERIZING FILMS USING OPTICAL FILTER PSEUDO SUBSTRATE - A system and method of characterizing a parameter of an ultra thin film, such as a gate oxide layer. A system is disclosed that includes a structure having a pseudo substrate positioned below an ultra thin film, wherein the pseudo substrate includes an optical mirror for enhancing an optical response; and a system for characterizing the ultra thin film by applying a light source to the ultra thin film and analyzing the optical response. | 07-23-2009 |
20090208865 | PHOTOLITHOGRAPHY FOCUS IMPROVEMENT BY REDUCTION OF AUTOFOCUS RADIATION TRANSMISSION INTO SUBSTRATE - An anti-reflective coating material, a microelectronic structure that includes an anti-reflective coating layer formed from the anti-reflective coating material and a related method for exposing a resist layer located over a substrate while using the anti-reflective coating layer provide for attenuation of secondary reflected vertical alignment beam radiation when aligning the substrate including the resist layer located thereover. Such enhanced vertical alignment provides for improved dimensional integrity of a patterned resist layer formed from the resist layer, as well as additional target layers that may be fabricated while using the resist layer as a mask. | 08-20-2009 |
20090246958 | METHOD FOR REMOVING RESIDUES FROM A PATTERNED SUBSTRATE - The present invention relates to a method for removing residues from open areas of a patterned substrate involving the steps of providing a layer of a developable anti-reflective coating (DBARC) over a substrate; providing a layer of a photoresist over said DBARC layer; pattern-wise exposing said photoresist layer and said DBARC layer to a radiation; developing said photoresist layer and said DBARC layer with a first developer to form patterned structures in said photoresist and DBARC layers; depositing a layer of a developer soluble material over said patterned structures; and removing said developer soluble material with a second developer. | 10-01-2009 |
20100173247 | SUBSTRATE PLANARIZATION WITH IMPRINT MATERIALS AND PROCESSES - The present invention relates to planarization materials and methods of using the same for substrate planarization in photolithography. A planarization layer of a planarization composition is formed on a substrate. The planarization composition contains at least one aromatic monomer and at least one non-aromatic monomer. A substantially flat surface is brought into contact with the planarization layer. The planarization layer is cured by exposing to a first radiation or by baking The substantially flat surface is then removed. A photoresist layer is formed on the planarization layer. The photoresist layer is exposed to a second radiation followed by development to form a relief image in the photoresist layer. The relief image is then transferred into the substrate. | 07-08-2010 |
20100199256 | PERFORMING OPTICAL PROXIMITY CORRECTION BY INCORPORATING CRITICAL DIMENSION CORRECTION - A solution for performing an optical proximity correction (OPC) process on a layout by incorporating a critical dimension (CD) correction is provided. A method may include separating the layout into a first portion and a second portion corresponding to the two exposures; creating a model for calculating a CD correction for a site on the first portion, the model corresponding to a topography change on the site due to the double exposures; implementing an OPC iteration for the fragment based on the model to generate an OPC solution for the first portion; and combining the OPC solution for the first portion with an OPC solution for the second portion to generate an OPC solution for the layout to generate a mask for fabricating a structure using the layout. | 08-05-2010 |
20110049680 | DUAL EXPOSURE TRACK ONLY PITCH SPLIT PROCESS - An integrated circuit is formed with structures spaced more closely together than a transverse dimension of such structures, such as for making contacts to electronic elements formed at minimum lithographically resolvable dimensions by dark field split pitch techniques. Acceptable overlay accuracy and process efficiency and throughput for the split pitch process that requires etching of a hard mark for each of a plurality of sequentially applied and patterned resist layers is supported by performing the etching of the hard mask entirely within a lithography track through using an acid sensitive hard mark material and an acidic overcoat which contacts areas of the hard mask through patterned apertures in the resist. The contacted areas of the hard mask are activated for development by baking of the acidic overcoat. | 03-03-2011 |
20110256486 | PHOTOLITHOGRAPHY FOCUS IMPROVEMENT BY REDUCTION OF AUTOFOCUS RADIATION TRANSMISSION INTO SUBSTRATE - An anti-reflective coating material, a microelectronic structure that includes an anti-reflective coating layer formed from the anti-reflective coating material and a related method for exposing a resist layer located over a substrate while using the anti-reflective coating layer provide for attenuation of secondary reflected vertical alignment beam radiation when aligning the substrate including the resist layer located thereover. Such enhanced vertical alignment provides for improved dimensional integrity of a patterned resist layer formed from the resist layer, as well as additional target layers that may be fabricated while using the resist layer as a mask. | 10-20-2011 |
20120126358 | TONE INVERSION WITH PARTIAL UNDERLAYER ETCH - A method for tone inversion for integrated circuit fabrication includes providing a substrate with an underlayer on top of the substrate; creating a first pattern, the first pattern being partially etched into a portion of the underlayer such that a remaining portion of the underlayer is protected and forms a second pattern, and such that the first pattern does not expose the substrate located underneath the underlayer; covering the first pattern with a layer of image reverse material (IRM); and etching the second pattern into the substrate. A structure for tone inversion for integrated circuit fabrication includes a substrate; a partially etched underlayer comprising a first pattern located over the substrate, the first pattern being partially etched into a portion of the underlayer such that a remaining portion of the underlayer is protected and forms a second pattern, and such that the first pattern does not expose the substrate located underneath the underlayer; and an image reversal material (IRM) layer located over the partially etched underlayer. | 05-24-2012 |
20120205787 | ORGANIC GRADED SPIN ON BARC COMPOSITIONS FOR HIGH NA LITHOGRAPHY - An antireflective coating that contains at least two polymer components and comprises chromophore moieties and transparent moieties is provided. The antireflective coating is useful for providing a single-layer composite graded antireflective coating formed beneath a photoresist layer. | 08-16-2012 |
20120282779 | SIDEWALL IMAGE TRANSFER PROCESS EMPLOYING A CAP MATERIAL LAYER FOR A METAL NITRIDE LAYER - A cap material layer is deposited on a metal nitride layer. An antireflective coating (ARC) layer, an organic planarizing layer (OPL), and patterned line structures are formed upon the cap material layer. The pattern in the patterned line structures is transferred into the ARC layer and the OPL. Exposed portions of the cap material layer are etched simultaneously with the etch removal of the patterned line structures and the ARC layer. The OPL is employed to etch the metal nitride layer. The patterned cap material layer located over the metal nitride layer protects the top surface of the metal nitride layer, and enables high fidelity reproduction of the pattern in the metal nitride layer without pattern distortion. The metal nitride layer is subsequently employed as an etch mask for pattern transfer into an underlying layer. | 11-08-2012 |
20120302057 | SELF ALIGNING VIA PATTERNING - A method for patterning self-aligned vias in a dielectric. The method includes forming a first trench partially through a hard mask, where the trench corresponds to a desired wiring path in the dielectric. The trench should be formed on a sub-lithographic scale. Then, form a second trench, also of a sub-lithographic scale, that intersects the first trench. The intersection forms a pattern extending through the depth of the hard mask, and corresponds to a via hole in the dielectric. The via hole is etched into the dielectric through the hard mask. Then the first trench is extended through the hard mask and the exposed area is etched to form the wiring path, which intersects the via hole. Conductive material is deposited to form a sub-lithographic via and wiring. This method may be used to form multiple vias of sub-lithographic proportions and with a sub-lithographic pitch. | 11-29-2012 |
20130017486 | PROCESS OF MAKING A LITHOGRAPHIC STRUCTURE USING ANTIREFLECTIVE MATERIALS - A lithographic structure comprising: an organic antireflective material disposed on a substrate, and a silicon antireflective material disposed on the organic antireflective material. The silicon antireflective material comprises a crosslinked polymer with a SiO | 01-17-2013 |
20130175658 | TONE INVERSION WITH PARTIAL UNDERLAYER ETCH FOR SEMICONDUCTOR DEVICE FORMATION - A structure for tone inversion for integrated circuit fabrication includes a substrate; a partially etched underlayer comprising a first pattern located over the substrate, the first pattern being partially etched into a portion of the underlayer such that a remaining portion of the underlayer is protected and forms a second pattern, and such that the first pattern does not expose the substrate located underneath the underlayer; and an image reversal material (IRM) layer located over the partially etched underlayer. | 07-11-2013 |
20130216776 | DUAL HARD MASK LITHOGRAPHY PROCESS - A first metallic hard mask layer over an interconnect-level dielectric layer is patterned with a line pattern. At least one dielectric material layer, a second metallic hard mask layer, a first organic planarization layer (OPL), and a first photoresist are applied above the first metallic hard mask layer. A first via pattern is transferred from the first photoresist layer into the second metallic hard mask layer. A second OPL and a second photoresist are applied and patterned with a second via pattern, which is transferred into the second metallic hard mask layer. A first composite pattern of the first and second via patterns is transferred into the at least one dielectric material layer. A second composite pattern that limits the first composite pattern with the areas of the openings in the first metallic hard mask layer is transferred into the interconnect-level dielectric layer. | 08-22-2013 |
20140110846 | DUAL HARD MASK LITHOGRAPHY PROCESS - A first metallic hard mask layer over an interconnect-level dielectric layer is patterned with a line pattern. At least one dielectric material layer, a second metallic hard mask layer, a first organic planarization layer (OPL), and a first photoresist are applied above the first metallic hard mask layer. A first via pattern is transferred from the first photoresist layer into the second metallic hard mask layer. A second OPL and a second photoresist are applied and patterned with a second via pattern, which is transferred into the second metallic hard mask layer. A first composite pattern of the first and second via patterns is transferred into the at least one dielectric material layer. A second composite pattern that limits the first composite pattern with the areas of the openings in the first metallic hard mask layer is transferred into the interconnect-level dielectric layer. | 04-24-2014 |