Ex Parte Srinivasan et alDownload PDFBoard of Patent Appeals and InterferencesJun 1, 200910769430 - (D) (B.P.A.I. Jun. 1, 2009) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE BOARD OF PATENT APPEALS AND INTERFERENCES ____________ Ex parte ANAND SRINIVASAN, GURTEJ SANDHU, and RAVI IYER ____________ Appeal 2008-005349 Application 10/769,430 Technology Center 2800 ____________ Decided1: June 2, 2009 ____________ Before ADRIENE LEPIANE HANLON, PETER F. KRATZ, and ROMULO H. DELMENDO, Administrative Patent Judges. DELMENDO, Administrative Patent Judge. DECISION ON APPEAL Appellants appeal under 35 U.S.C. § 134(a) from a final rejection of claims 43-76 (Appeal Brief filed January 5, 2007, hereinafter “Br.,” 1, 3; Final Office Action mailed February 10, 2006). We have jurisdiction under 35 U.S.C. § 6(b). We REVERSE. 1 The two-month time period for filing an appeal or commencing a civil action, as recited in 37 C.F.R. § 1.304, begins to run from the decided date shown on this page of the decision. The time period does not run from the Mail Date (paper delivery) or Notification Date (electronic delivery). Appeal 2008-005349 Application 10/769,430 STATEMENT OF THE CASE Appellants’ invention relates to a method of forming an insulating material in which an insulating material comprising fluorine, silicon, and oxygen is deposited on a substrate provided within a reaction chamber together with reactants comprising Si, F, and O3 (Specification, hereinafter “Spec.,” 3, ll. 7-11). Claims 43, 63, 67, and 74, which are the only independent claims on appeal, read as follows: 43. A method of forming a fluorine doped insulating material comprising: providing a substrate within a reaction chamber, the reaction chamber controlled within a range of temperatures from about 400°C to about 700°C; providing reactants comprising silicon, fluorine and ozone within the reaction chamber and maintaining a pressure within the reaction chamber of from about 400 Torr to about 1 atmosphere; and depositing an insulating material, at a rate of from about 8000 angstroms per minute (Å/min) to about 10000 Å/min, comprising fluorine, silicon and oxygen onto the substrate from the reactants, wherein the depositing occurs with a plasma being present in the reaction chamber. 63. A method of forming a silicon oxide having Si-F bonds, comprising: providing a reaction chamber at a temperature of from about 400ºC to about 700°C; positioning a substrate within the reaction chamber; providing an ozone comprising reactant and a precursor having Si-F bonds to the substrate within the reaction chamber and maintaining a pressure within the reaction chamber of from about 400 Torr to about 1 atmosphere; while providing the ozone comprising reactant and the precursor having Si-F bonds to the substrate, providing a plasma within the reaction chamber; and 2 Appeal 2008-005349 Application 10/769,430 causing a silicon oxide having Si-F bonds, to deposit onto the substrate within the reaction chamber at a rate of from about 8000 angstroms per minute (Å/min) to about 10000 Å/min. 67. A method of forming a silicon oxide having Si-F bonds, comprising: providing a substrate within a CVD reaction chamber at a pressure of from about 1 Torr to about 760 Torr and at a substrate temperature of from about 400ºC to about 700°C; flowing F-TES into the reaction chamber at a flow rate of from about 100 mg/min to about 1,000 mg/min; flowing an ozone-containing gas into the reaction chamber at a flow rate of from about 1,000 sccm to about 8,000 sccm, the gas containing a mixture of from about 5 vol% to about 15 vol% ozone in O2; providing the F-TES and ozone-containing gas simultaneously in the reaction chamber; and depositing a silicon oxide having Si-F bonds onto the substrate at a rate of from about 500 Å/min to about 10,000 Å/min with a plasma present in the reaction chamber, the silicon oxide comprising from about 2 atomic % to about 10 atomic % fluorine, comprising more fluorine than occurs in a silicon oxide deposited from an otherwise identical method using O2 or H2O2 instead of O3, exhibiting a flow temperature that is from about 50°C to about 100°C less than occurs in an otherwise identical silicon oxide lacking the fluorine, exhibiting a dielectric constant that is less than occurs in an otherwise identical silicon oxide lacking the fluorine, and exhibiting a fixed charge that is less than occurs in a silicon oxide deposited from an otherwise identical method using TEOS instead of F- TES. 74. A method of forming silicon oxide having Si-F bonds, comprising: providing a substrate within a single wafer, cold wall, CVD reaction chamber at a pressure of 600 Torr and at a substrate temperature of 500ºC; flowing F-TES into the reaction chamber at a flow rate of from about 100 mg/min to about 1,000 mg/min; 3 Appeal 2008-005349 Application 10/769,430 flowing an ozone-containing gas into the reaction chamber at a flow rate of 2,000 sccm, the gas containing a mixture of from about 5 vol% to about 15 vol% ozone in O2; providing the F-TES and ozone-containing gas simultaneously in the reaction chamber; and depositing a silicon oxide having Si-F bonds onto the substrate at a rate of 8,000 Å/min with a plasma present in the reaction chamber, the silicon oxide comprising 2 atomic % fluorine. (Claims App’x; Br. 20, 23, 25, 27.) The Examiner relied upon the following as evidence of unpatentability (Examiner’s Answer mailed June 1, 2007, hereinafter “Ans.,” 2): Vassiliev 5,876,798 Mar. 2, 1999 Ryu 5,908,672 Jun. 1, 1999 Kirchhoff 6,057,250 May 2, 2000 The Examiner rejected the claims under 35 U.S.C. § 103(a) as follows: I. claims 43-49, 54, 55, 62-66, 74, and 75 as unpatentable over Ryu in view of Vassiliev (Ans. 3-11); II. claims 67-69, 71, and 72 as unpatentable over Ryu (id. at 11- 15); III. claim 70 as unpatentable over Ryu in view of Vassiliev (id. at 15-16); IV. claims 50-53 and 56-61 as unpatentable over Ryu, Vassiliev, and Kirchhoff (id. at 16); and 4 Appeal 2008-005349 Application 10/769,430 V. claims 73 and 76 as unpatentable over Ryu in view of Kirchhoff (id. at 16-17).2 ISSUES I. Claims 43-49, 54, 55, 62-66, 74 & 75 over Ryu & Vassiliev With respect to each of the independent claims (claims 43, 63, and 74) subject to this rejection, the Examiner acknowledges that one of the differences between the claimed subject matter and Ryu is that Ryu discloses a deposition rate of 3,000 to 4,500 Å/min, which is lower than the rates recited in these claims (i.e., “about 8000 . . . to about 10000 Å/min” in claims 43 and 63 and “8,000 Å/min” in claim 74) (Ans. 4-10). Nevertheless, the Examiner asserts that Appellants’ Specification “contains no disclosure of either the critical nature of the claimed deposition rate . . . of [sic, or] any unexpected results arising therefrom” (id. at 4, 7, and 10). According to the Examiner, “it would have been obvious to one having ordinary skill in the art . . . to deposit the insulating material of Ryu at a higher rate as taught by Vassiliev because plasma enhanced deposition does have some short term advantages such as higher deposition rate” (id. at 4-5). With respect to claim 74, the Examiner further asserts that “the claimed mixture of from about 5% to about 15[%] ozone in O2, do[es] not appear to be critical” (id. at 10). Appellants, on the other hand, contend that “neither Ryu nor Vassiliev disclose[s] or suggest[s] the claimed deposition rate of about 8000 to about 10000 angstroms per minute” (Br. 10). According to Appellants, Ryu “expressly requires a low deposition rate of less than 4500 angstroms per 2 The Examiner indicated that the rejections under 35 U.S.C. § 112, ¶1, (Final Office Action at 2-4) have been withdrawn (Ans. 17). 5 Appeal 2008-005349 Application 10/769,430 minute to preclude the voids that result from prior art depositions” and thus “expressly teaches against depositing with a plasma at the much higher deposition rate” recited in the claims (id.). With respect to claim 74, Appellants further contend that Ryu merely teaches that ozone may be used in place of oxygen (id. at 14). Specifically, Appellants argue that “Ryu fails to appreciate any significance in the presence of ozone in comparison to O2” (id.). Thus, the issues arising from the respective positions of the Examiner and Appellants are: (1) Have Appellants shown reversible error on the part of the Examiner in concluding that a person having ordinary skill in the art would have had a reason to increase Ryu’s disclosed deposition rate of less than about 4500 Å/min to “about 8000” or “8000” Å/min as recited in independent claims 43, 63, and 74? (2) Have Appellants shown reversible error on the part of the Examiner in concluding that a person having ordinary skill in the art would have had a reason to use a mixture of about 5 to about 15 vol% of ozone in O2 as recited in claim 74? II. Claims 67-69, 71, & 72 over Ryu In addressing the limitation “flowing an ozone-containing gas into the reaction chamber . . . the gas containing a mixture of from about 5 vol% to about 15 vol% ozone in O2” in claim 67 (the only independent claim subject to this rejection), the Examiner asserts that the limitation “do[es] not appear to be critical” (Ans. 13). The Examiner then concludes that “it would have been obvious to one having ordinary skill in the art . . . to determine the 6 Appeal 2008-005349 Application 10/769,430 appropriate percentage of ozone in oxygen mixture since the rate of reaction between F-TES and oxygen are well known to the workers in the art” (id). Appellants, on the other hand, urge that Ryu merely teaches that ozone may be used in place of oxygen (Br. 16). According to Appellants, “Ryu fails to appreciate any significance in the presence of ozone in comparison to O2” (id.). Thus, an issue arising from the contentions of the Examiner and Appellants is: (3) Have Appellants shown reversible error on the part of the Examiner in concluding that a person having ordinary skill in the art would have had a reason to use a mixture of about 5 to about 15 vol% of ozone in O2 as recited in claim 67? III. Claim 70 over Ryu & Vassiliev Appellants rely on the same arguments made in support of Rejection II (Br. 18). Accordingly, the issue raised in this rejection is the same as in Rejection II. IV. Claims 50-53 & 56-61 over Ryu, Vassiliev, & Kirchhoff With respect to claims 50-53 and 56-61 (which all directly or indirectly depend from claim 43), the Examiner relies on Kirchhoff for its teaching that “dopants such as boron and phosphorus can be added into a fluorine doped oxide material to lower the flow temperature” (Ans. 16). Appellants, on the other hand, contend that “Kirchhoff does not remedy and is not alleged to remedy the deficiencies of Ryu in view of Vassiliev . . . with regard to claim 43” (Br. 19). 7 Appeal 2008-005349 Application 10/769,430 Accordingly, the issue raised in this rejection is the same as in Rejection I. V. Claims 73 & 76 over Ryu & Kirchhoff With respect to claims 73 and 76 (which depend from claims 67 and 74 respectively), the Examiner again relies on Kirchhoff for its teaching that “dopants such as boron and phosphorus can be added into a fluorine doped oxide material to lower the flow temperature” (Ans. 16). Appellants, on the other hand, contend that that “Kirchhoff does not remedy and is not alleged to remedy the deficiencies of Ryu as applied to claims 67 and 74” (Br. 19). Thus, the issues raised in Rejection V are identical to Issues (2) and (3) above. FINDINGS OF FACT 1. Ryu teaches that plasma enhanced chemical vapor deposition (PECVD) has been used to form doped passivation (insulating) layers at deposition rates of “4800 Å/min or more” (col. 1, ll. 13-15 and 36-65). 2. Ryu teaches, however, that such prior art deposition rates of “4800 Å/min or more” create problems in terms of voids in the context of smaller devices and increased circuit densities (col. 1, l. 62 to col. 2, l. 20). 3. To avoid the problem of voids in the prior art and to provide other advantages, Ryu describes depositing (either by thermal or plasma CVD) a passivation layer of fluorine-doped silicon 8 Appeal 2008-005349 Application 10/769,430 oxide at a rate less than about 4500 Å/min (but preferably above about 3000 Å/min) (col. 3, ll. 12-23; col. 5, ll. 1-3). 4. Ryu does not disclose deposition rates on the order of about 8000 Å/min. 5. Ryu does not indicate to one skilled in the relevant art that a deposition rate on the order of about 8,000 Å/min is included within “4800 Å/min or more.” 6. Ryu teaches that passivation layers based on triethoxyfluorosilane (TEFS) may be deposited using TEFS, tetraethoxyorthosilicate (TEOS), oxygen, and helium (as a carrier gas) but that “[o]ther gases may be used in place of those listed (e.g., ozone (O3) may be used in place of oxygen)” (col. 4, ll. 4-15; col. 12, ll. 28-31). 7. Vassiliev teaches that “methods such as plasma enhanced deposition must not be incorporated even though they may offer some short term advantages such as higher deposition rates” (col. 6, ll. 4-9). 8. Vassiliev does not disclose any specific deposition rate in connection with “higher deposition rates.” 9. Kirchhoff teaches that dopants such as boron and phosphorus may be used in the formation of insulating materials (col. 3, ll. 34-48). PRINCIPLES OF LAW “Section 103 forbids issuance of a patent when ‘the differences between the subject matter sought to be patented and the prior art are such 9 Appeal 2008-005349 Application 10/769,430 that the subject matter as a whole would have been obvious at the time the invention was made to a person having ordinary skill in the art to which said subject matter pertains.’” KSR Int’l Co. v. Teleflex, Inc., 550 U.S. 398, 406 (2007). KSR reaffirms the analytical framework set out in Graham v. John Deere Co., 383 U.S. 1 (1966), which states that an objective obviousness analysis includes: (1) determining the scope and content of the prior art; (2) ascertaining the differences between the prior art and the claims at issue; and (3) resolving the level of ordinary skill in the pertinent art. KSR, 550 U.S. at 407. Secondary considerations such as commercial success, long felt but unsolved needs, or failure of others “might be utilized to give light to the circumstances surrounding the origin of the subject matter sought to be patented.” Id. (quoting Graham, 383 U.S. at 17-18). While KSR explains that an obviousness “analysis need not seek out precise [prior art] teachings,” it nonetheless did not dispense with the need for evaluating the evidence to determine whether a person having ordinary skill in the art would have had “an apparent reason to” arrive at the claimed subject matter. Id., 550 U.S. at 418. ANALYSIS As already indicated, the first issue identified above turns on whether the Examiner has identified “an apparent reason” to modify Ryu by increasing the deposition rate from less than about 4500 Å/min to about 8000 Å/min as recited in independent claims 43, 63, and 74. KSR, 550 U.S. at 418. The second and third issues turn on whether the Examiner has 10 Appeal 2008-005349 Application 10/769,430 identified “an apparent reason” to modify Ryu by using a mixture of about 5 to about 15 vol% of ozone in O2 as recited in claims 67 and 74. Id. Deposition Rate We agree with Appellants that the Examiner failed to establish a prima facie case of obviousness (Br. 10). Ryu teaches deposition rates less than about 4500 Å/min because prior art deposition rates on the order of “4800 Å/min or more” were found to cause undesirable voids (Facts 1-3). Ryu’s teaching concerning the use of lower deposition rates applies for both thermal and plasma-enhanced CVD processes (Fact 3). Thus, in contrast to the subject matter of claims 43, 63, and 74, Ryu does not disclose a deposition rate on the order of about 8000 Å/min (Fact 4). In an attempt to account for the difference (in terms of deposition rates) between Ryu and the claimed subject matter, the Examiner advanced two principal theories. The first theory underlying the Examiner’s obviousness conclusion is that Appellants did not demonstrate criticality for the deposition rates recited in the claims (Ans. 4). This reasoning, however, is insufficient to make out a prima facie case of obviousness in the first instance. Contrary to the Examiner’s stated position, Appellants are not required to demonstrate any criticality unless a prima facie case of obviousness has been established. In re Oetiker, 977 F.2d 1443, 1445 (Fed. Cir. 1992) (“If examination at the initial stage does not produce a prima facie case of unpatentability, then without more the applicant is entitled to the grant of a patent.”). The Examiner’s second theory is that Vassiliev would have suggested higher deposition rates with the practice of plasma-enhanced deposition 11 Appeal 2008-005349 Application 10/769,430 (Ans. 4-5). This theory is also misplaced. Vassiliev actually teaches that “methods such as plasma enhanced deposition must not be incorporated even though they may offer some short term advantages such as higher deposition rates” (Fact 7). While Vassiliev may suggest that plasma enhanced deposition processes may be performed at “higher deposition rates” relative to thermal deposition, Vassiliev does not quantify the “higher deposition rates” (Fact 8). Furthermore, Vassiliev’s teaching does not negate Ryu’s requirement that the deposition rate must be maintained below about 4500 Å/min regardless of whether thermal or plasma-enhanced deposition is used (Fact 3). Neither of the applied prior art references discloses the use of a deposition rate on the order of about 8000 Å/min (Facts 4 and 8). While Ryu’s discussion of inferior prior art processes in which the deposition rates were “4800 Å/min or more” might have arguably prompted a person skilled in the art to try a deposition rate on the order of about 5000 Å/min, the Examiner failed to direct us to any evidence or acceptable reasoning to compel a conclusion that a person having ordinary skill in the art would have modified Ryu’s process by increasing the deposition rate to rates significantly higher than about 4800 Å/min, such as about 8000 Å/min as required by claims 43, 63, and 74. In re Sebek, 465 F.2d 904, 907 (CCPA 1972) (“Where, as here, the prior art disclosure suggests the outer limits of the range of suitable values, and that the optimum resides within that range, and where there are indications elsewhere that in fact the optimum should be sought within that range, the determination of optimum values outside that range may not be obvious.”). 12 Appeal 2008-005349 Application 10/769,430 Use of a Mixture of Ozone and Oxygen in Specific Amounts We also find no merit in the Examiner’s position with respect to the recited “mixture of from about 5 [vol]% to about 15 [vol%] ozone in O2” in claims 67 and 74 (Ans. 13). Again, the Examiner’s obviousness conclusion is premised on the finding that Appellants did not show criticality for the claimed relative amounts (id.). But, as we discussed earlier, Appellants are not required to demonstrate any criticality unless a prima facie case of obviousness has been established. Oetiker, 977 F.2d at 1445. Because the Examiner’s obviousness conclusion is infected by the Examiner’s erroneous reasoning, we cannot affirm the Examiner’s rejection as stated in the record. CONCLUSION On this record, we determine that Appellants have shown that the Examiner reversibly erred in concluding that: a person having ordinary skill in the art would have had a reason to increase Ryu’s disclosed deposition rate of less than about 4500 Å/min to “about 8000” or “8000” Å/min as recited in independent claims 43, 63, and 74; and a person having ordinary skill in the art would have had a reason to use a mixture of about 5 to about 15 vol% of ozone in O2 as recited in claims 67 and 74. DECISION The Examiner’s decision to reject 13 Appeal 2008-005349 Application 10/769,430 claims 43-49, 54, 55, 62-66, 74, and 75 under 35 U.S.C. § 103(a) as unpatentable over Ryu in view of Vassiliev, claims 67-69, 71, and 72 under 35 U.S.C. § 103(a) as unpatentable over Ryu, claim 70 under 35 U.S.C. § 103(a) as unpatentable over Ryu in view of Vassiliev, claims 50-53 and 56-61 under 35 U.S.C. § 103(a) as unpatentable over Ryu, Vassiliev, and Kirchhoff, and claims 73 and 76 under 35 U.S.C. § 103(a) as unpatentable over Ryu in view of Kirchhoff, is reversed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1). REVERSED sss WELLS ST. JOHN P.S. 601 W. FIRST AVENUE, SUITE 1300 SPOKANE WA 99201 14 Copy with citationCopy as parenthetical citation