11828809 (P.T.A.B. Sep. 17, 2012)

Ex Parte Chang

Patent Trial and Appeal BoardSep 17, 2012

11828809 (P.T.A.B. Sep. 17, 2012)

UNITED STATES PATENT AND TRADEMARK OFFICE ________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ________________ Ex parte CHING-YU CHANG ________________ Appeal 2011-009158 Application 11/828,809 Technology Center 1700 ________________ Before FRED E. MCKELVEY, MICHAEL P. COLAIANNI, and GEORGE C. BEST, Administrative Patent Judges. BEST, Administrative Patent Judge. DECISION ON APPEAL The Examiner finally rejected claims 1-6, 8-13, 15, and 16 of Application 11/828,809 under 35 U.S.C. § 102(b) as anticipated, and/or under 35 U.S.C. § 103(a) as obvious.1 Appellant seeks reversal of these rejections pursuant to 35 U.S.C. § 134(a). We have jurisdiction under 35 U.S.C. § 6(b). 1 After receipt of the Final Rejection, Appellant cancelled claims 7, 14, and 17-20, which mooted rejections of claims 7 and 14 under 35 U.S.C. § 112, ¶ 2 as indefinite and of claims 17-20 under 35 U.S.C. § 103(a) as obvious. Amendment 5 (Nov. 22, 2010); Advisory Action 2 (Nov. 30, 2010). Appeal 2011-009158 Application 11/828,809 2 For the reasons set forth below, we AFFIRM. BACKGROUND The ’809 application describes an immersion lithography resist material that comprises a matrix polymer and an additive that has a polarity that is greater than the polarity of the matrix polymer. Spec. 20-21. The matrix polymer and the additive are combined in a manner such that when the lithography resist is applied to a substrate, the additive is said to float to a top surface of the resist material. Id. at 20, 23. According to the Specification, the claimed composition can be used as a lithography resist material that will produce fewer watermark defects in the finished photoresist pattern. After the lithography resist material is applied to the substrate, the resist layer is exposed to transfer the desired pattern to the substrate. Id. at 5. Following exposure, the unexposed resist layer is removed through treatment with a developer rinse fluid. Id. at 5-6. Following the developing step, the substrate is rinsed with deionized water (“DI water”) to remove residual developer rinse and unexposed resist material. Id. at 6. The substrate is then spun or subjected to some other drying process to remove the DI water droplets. Id. Watermark defects are said to be created when residual DI water droplets that contain developer rinse, unexposed resist material, and other chemicals remain on the substrate surface and are allowed to evaporate. Id. at 6-7. The ’809 application describes a lithography resist material that is purported to reduce the incidence of these defects by decreasing the ability of the DI water rinse to penetrate or to form hydrogen bonds with the resist polymer matrix. Id. at 19. The resist material is a combination of a matrix Appeal 2011-009158 Application 11/828,809 3 polymer and a fluoride surfactant. Id. When the resist material is applied to the substrate, the fluoride surfactant is said to float to the top surface of the polymer matrix. Id. There, the fluorocarbon ends of the surfactant are said to be extruded to the surface, while the polar ends remain buried in the polymer matrix. Id. The resulting hydrophobic fluorocarbon surface of the polymer matrix reduces DI water interaction with and penetration into the polymer matrix. Id. DI water droplets are therefore said to be more effectively removed from the polymer matrix’s surface. Id. at 19-20, Fig 3. Claim 1 of the ’809 application is representative and is reproduced below: 1. An immersion lithography resist material, comprising: a matrix polymer having a first polarity; and an additive having a second polarity, wherein the second polarity is substantially greater than the first polarity; wherein the matrix polymer and the additive are combined such that when the immersion lithography resist material is applied to a substrate, the additive floats to a top surface of the immersion lithography resist material. App. Br. 6. REJECTIONS 1. The Examiner finally rejected claims 1-6, 8-13, 15, and 16 under 35 U.S.C. § 102(b) as anticipated by U.S. Patent No. 6,818,148 B1 (“Watanabe,” issued Nov. 16, 2004) as evidenced by U.S. Patent Application Publication No. 2005/0106498 A1 (“Cao,” May 19, 2005) and U.S. Patent No. 4,123,931 (“Blaser,” issued Nov. 7, 1978). Appeal 2011-009158 Application 11/828,809 4 2. The Examiner finally rejected claims 1, 4-6, 10, and 13 under 35 U.S.C. § 103(a) as obvious over U.S. Patent Application Publication No. 2008/0166667 A1 (“Goldfarb,” July 10, 2008) as evidenced by U.S. Patent No. 6,653,415 B1 (“Böttcher,” issued Nov. 25, 2003), U.S. Patent No. 4,554,237 (“Kataoka,” issued Nov. 19, 1985), and U.S. Patent No. 6,770,404 B1 (“Wheland,” issued Aug. 3, 2004). DISCUSSION Rejection 1. Claims 1-6, 8-13, 15, and 16 were rejected as anticipated by Watanabe as evidenced by Cao and Blaser. Appellant only specifically argues for patentability of claim 1. App. Br. 3-4. Claim 10 is argued to be patentable because it “includes limitations similar to those of claim 1.” Id. at 4. Dependent claims 2-6, 8, 9, 11-13, 15, and 16 stand or fall with the independent claims from which they depend. Id. Therefore, we confine our discussion to claim 1. See 37 C.F.R. § 41.37(c)(1)(vii). Watanabe describes a lithography resist material comprising a polyhydroxystyrene with partially-protected hydroxyl groups and surfactant FC-430. Ans. 3-4 (citing Watanabe col. 6, ll. 15-17, Table 1, and Table 7). The Examiner cited Cao as evidence in support of the finding that the partially-protected polyhydroxystyrene polymer is an essentially non-polar material. Id. at 4 (citing Cao ¶ [0011]). The Examiner further cited Blaser as describing the structure of FC-430, which is a polymeric surfactant. Id. (citing Blaser col. 7, ll. 18-34). Next, the Examiner found that the ethylene oxide and propylene oxide monomers present in FC-430 are polar, with a Appeal 2011-009158 Application 11/828,809 5 polarity higher than that of the partially-protected polyhydroxystyrene polymer. Id. Appellant challenges this rejection, arguing that Watanabe does not describe the recited claim limitation that the additive—the FC-430 in this rejection—floats to a top surface of the polymer matrix. App. Br. 3-4. The Examiner found that Appellant’s Specification describes a genus of surfactants that includes FC-430 as useful in Appellant’s composition of matter. Ans. 5 (citing Spec. at ¶ [0078]). The Examiner further found that Appellant’s specification does not describe the claimed “matrix polymer” with any specificity. Id. at 10. The Examiner states that “[a]bsent a record to the contrary, it is the [E]xaminer’s position that the . . . non-ionic surfactant FC-430 of Watanabe et al. will float to the top surface of the resist material.” Id. at 5. We sustain the Examiner’s rejection of claim 1 as anticipated by Watanabe for the following reasons. The ’809 application’s claims are directed to compositions of matter. Appellant does not dispute that Watanabe describes the claimed composition of matter, which is a combination of a matrix polymer with a first polarity and an additive with a second, substantially higher, polarity.2 Here, Appellant is relying on the allegedly novel property of the claimed composition—that the additive will float to a top surface of the polymer matrix when the composition of matter is used as an immersion lithography resist material—to distinguish the claimed invention from the prior art. It is axiomatic that discovery of a new 2 We pause to note that claim 1 appears to be very broad. Because we affirm the Examiner’s prior art rejections, we need not consider at this time whether the full scope of each of the ’809 application’s the claims are both supported and enabled by the written description. Appeal 2011-009158 Application 11/828,809 6 use or property of a known composition cannot impart patentability to claims to the known composition. In re Spada, 911 F.2d 705, 708 (Fed. Cir. 1990). The Examiner found that the matrix polymer/additive mixture described in Watanabe has the claimed property, i.e., that the additive floats to the top of the polymer matrix when the composition of matter is used as an immersion lithography resist. The Examiner’s finding is supported by a preponderance of the evidence. As previously noted, the claimed composition is identical to the composition disclosed in Watanabe. Therefore, the Examiner is entitled to presume that the two compositions have identical properties, see In re King, 801 F.2d 1324, 1327 (Fed. Cir. 1986), especially since the additive belongs to a genus that Appellant discloses as useful creating the claimed compositions of matter. Where, as in this case, there is an apparent identity of the claimed composition with the prior art, the inventor may be required to provide some basis for distinguishing the claimed invention from the prior art. Spada, 911 F.2d at 709. Rejection 2. The Examiner rejected claims 1, 4-6, 10, and 13 under 35 U.S.C. § 103(a) as obvious over Goldfarb as evidenced by Böttcher, Kataoka, and Wheland. Ans. 6-8. Appellant only specifically argues for patentability of claim 1. App. Br. 4. Claim 10 is argued to be patentable because it “includes limitations similar to those of claim 1.” Id. Dependent claims 4-6 and 13 stand or fall with the independent claims from which they depend. Id. Therefore, we confine our discussion to claim 1. For the following reasons, we sustain this rejection. Appeal 2011-009158 Application 11/828,809 7 The Examiner found that Goldfarb describes a hydrophobic polymer material that is a combination of a fluorinated polymeric resin and a fluorinated solvent. Ans. at 7. Following Goldfarb’s description, the Examiner combines poly(tetrafuoroethylene) with perfluorotributyl amine. Id. (citing Goldfarb ¶ [0021]). The Examiner cites Böttcher and Kataoka, respectively, as evidence in support of the findings that poly(tetrafluorethylene) is a nonpolar resin and that perfluorotributyl amine is a polar solvent. Id. Appellant argues that the cited references provide no support for the Examiner’s finding that the cited references teach or suggest that the perfluorobutyl amine will float to a top surface of the polymer matrix. App. Br. 4. In response, the Examiner cites Appellant’s Specification as supporting his finding that this limitation is an inherent property of the materials described in the references. Ans. 8 (citing Spec. ¶¶ [0073], [0078]). The Examiner states that “[a]bsent a record to the contrary, it is the [E]xaminer’s position that the perfluorotributyl amine . . . of Goldfarb will float to the top surface of the hydrophobic material (MPEP 2112).” Id. The Examiner’s finding that Goldfarb describes or suggests a composition of matter that has the recited property is supported by a preponderance of the evidence. Goldfarb reveals that perfluorotributyl amine is available from 3M under the trade name FC43. Goldfarb ¶¶ [0021], [0022]. Appellant’s Specification identifies 3M Fluorinert™ FC-43 as one of the fluorinated surfactants that can be used in Appellant’s invention. Spec. ¶ [0078]. As discussed in connection with Rejection 1, supra, Appellant’s Specification is silent as to the identity of the matrix polymer. Because the prior art describes the use of a perfluorotributyl amine which Appellant says Appeal 2011-009158 Application 11/828,809 8 will function in a particular manner, the Examiner’s finding that the composition of matter described in Goldfarb has the claimed property is supported by a preponderance of the evidence. CONCLUSION For the foregoing reasons, we sustain the Examiner’s rejection of claims 1-6, 8-13, 15, and 16 as anticipated by Watanabe. We also sustain the Examiner’s rejection of claims 1, 4-6, 10, and 13 as obvious over Goldfarb. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). AFFIRMED cam