13965317 (P.T.A.B. Jan. 13, 2017)

Ex Parte Brothers et al

Patent Trial and Appeal BoardJan 13, 2017

13965317 (P.T.A.B. Jan. 13, 2017)

United States Patent and Trademark Office UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O.Box 1450 Alexandria, Virginia 22313-1450 www.uspto.gov APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 13/965,317 08/13/2013 PAUL DOUGLAS BROTHERS FL0449-US-CNT[2] 5560 129406 7590 01/18/2017 The Chemours Company Patent Legal Group 1007 Market Street 7028-1 Wilmington, DE 19801 EXAMINER BUIE-HATCHER, NICOLE M ART UNIT PAPER NUMBER 1767 NOTIFICATION DATE DELIVERY MODE 01/18/2017 ELECTRONIC Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): patentlegal @ chemours .com g wen. a. wilson @ chemours .com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte PAUL DOUGLAS BROTHERS and SUBHASH VISHNU GANGAL Appeal 2015-006620 Application 13/965,317 Technology Center 1700 Before MICHAEL P. COLAIANNI, CHRISTOPHER C. KENNEDY, and JENNIFER R. GUPTA, Administrative Patent Judges. GUPTA, Administrative Patent Judge. DECISION ON APPEAL1 Appellants2 appeal under 35 U.S.C. § 134(a) from the Examiner’s decision finally rejecting claims 1—29 and 31. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. 1 In this decision, we refer to the Final Office Action mailed May 27, 2014 (“Final Act.”), the Appeal Brief filed January 26, 2015 (“App. Br.”), the Examiner’s Answer mailed April 30, 2015 (“Ans.”), and the Reply Brief filed June 29, 2015 (“Reply Br.”). 2 Appellants identify the real party in interest as The Chemours Company FC, LLC, a wholly owned subsidiary of E.I. du Pont De Nemours and Company. App. Br. 2. Appeal 2015-006620 Application 13/965,317 The subject matter on appeal relates to a process for polymerizing a fluorinated monomer in an aqueous medium using a fluoropolyether acid or salt having a number average molecular weight of at least about 800 g/mol in combination with a fluorosurfactant having a carbon chain length of no greater than 6. Spec.3 1,11. 8—9, and Spec. 3,11. 25—29. Claim 1, reproduced below with key disputed limitations italicized, is illustrative of the claims on appeal. 1. A process comprising polymerizing at least one fluorinated monomer in an aqueous medium containing initiator and polymerization agent to form an aqueous dispersion of particles of fluoropolymer, said polymerization agent comprising: fluoropolyether acid or salt thereof having a number average molecular weight of at least about 800 g/mol; and fluorosurfactant having the formula: [R^Os-tL-A*] Y+ wherein: R1 is a linear or branched partially or fully fluorinated aliphatic group which may contain ether linkages; n is 0 or 1; L is a linear or branched alkylene group which may be nonfluorinated, partially fluorinated or fully fluorinated and which may contain ether linkages; A' is an anionic group selected from the group consisting of carboxylate, sulfonate, and sulfonamide anion; and Y+ is hydrogen, ammonium or alkali metal cation; with the proviso that the chain length ofR'-On-L- is not greater than 6 atoms, 3 Application 13/965,317, Aqueous Polymerization of Fluorinated Monomer Using Polymerization Agent Comprising Fluoropolyether Acid or Salt and Short Chain Fluorosurfactant, filed August 13, 2013 (hereinafter “Spec.”). 2 Appeal 2015-006620 Application 13/965,317 wherein said polymerization agent comprises a minor amount of said fluoropolyether acid or salt thereof and a major amount of said fluorosurfactant; and wherein said polymerizing produces less than about 10 wt% undispersed fluoropolymer based on the total weight of fluoropolymer produced. REJECTIONS ON APPEAL4 1. Claims 1—12, 14—26, 28, 29, and 31 stand rejected under pre-AIA 35 U.S.C. § 103(a) as unpatentable over Morgan et al. (US 6,395,848 Bl, issued May 28, 2002) (hereinafter “Morgan”) in view of GB 1292268 (published Oct. 11, 1972) (hereinafter “GB ’268”); 2. Claim 27 stands rejected under pre-AIA 35 U.S.C. § 103(a) as unpatentable over Morgan in view of GB ’268, as evidenced by Carlson (US 4,029,868, issued June 14, 1977) (hereinafter “Carlson”); and 3. Claims 1—6, 13—26, and 28, 29, and 31 stand rejected under pre- AIA 35 U.S.C. § 103(a) as unpatentable over Morgan in view of GB 836741 (published June 9, 1960) (hereinafter “GB ’741”). 4 In the Final Office Action, the Examiner inadvertently lists claim 30 as rejected under pre-AIA 35 U.S.C. § 103(a) over Morgan in view of GB ’268 (Rejection 1) and under pre-AIA 35 U.S.C. § 103(a) over Morgan in view of GB ’741 (Rejection 3). Final Act. 3,6. As the Examiner points out, claim 30 was previously canceled. Ans. 9. Thus, we consider the typographical error in the Final Office Action regarding claim 30 to be harmless error. 3 Appeal 2015-006620 Application 13/965,317 DISCUSSION Rejections 1 & 2 The Examiner finds that Morgan discloses a process for polymerizing at least one fluorinated monomer in an aqueous medium containing an initiator and dispersing agent to obtain an aqueous dispersion of particles of fluoropolymer, where the dispersing agent is a combination of at least two fluorosurfactants: (1) at least one of the fluorosurfactants being a perfluoropolyether carboxylic acid or sulfonic acid or salt thereof; and (2) at least one of the fluorosurfactants being a fluoroalkyl carboxylic or sulfonic acid or salt thereof, or fluoroalkoxy aryl sulfonic acid or salt thereof (Final Act. 3 (citing Morgan 2:56—65)). Example 2 in Morgan, cited by the Examiner on page 3 of the Final Office Action, uses a major amount of a fluoroalkyl fluorosurfactant (6,2-TBS) and a minor amount of a perfluoropolyether fluorosurfactant (PFPE-2) (Morgan 16:6—16). Although the Examiner finds that Morgan discloses the second type of fluorosurfactants include fluoroalkyl carboxylic acid and salts thereof having 6—20 carbon atoms, preferably 6—12 carbon atoms (Ans. 10 (citing 4:22— 25)), the Examiner acknowledges that Morgan does not limit the fluoroalkyl carboxylic acid and salts thereof to having no more than 6 carbon atoms (Final Act. 3). The Examiner, however, finds that GB ’268 teaches the dimer of hexafluoropropene epoxide and carboxylic salts thereof (Final Act. 4 (citing GB ’268 1,11.13—20)). The Examiner finds GB ’268 teaches that the carboxylic acid salts of the dimer of hexafluoropropene epoxide are very active wetting agents and are useful in the dispersion polymerization of fluoropolymers (Final Act 4 (citing GB ’268 1,11. 21—24)). Based on that teaching, the Examiner finds that one of ordinary skill in the art would have 4 Appeal 2015-006620 Application 13/965,317 been motivated to substitute GB ’268’s carboxylic acid salt of the dimer of hexafluoropropene epoxide, which has no more than 6 carbon atoms, for the fluoroalkyl fluorosurfactant in Morgan’s polymerization process (Final Act. 4). Appellants argue that short chain fluorosurfactants, such as GB ’268’s dimer acid, have poor surfactant properties (e.g., high surface tension), and when used alone as a polymerization agent, cause higher amounts of undispersed polymer (coagulum) in fluoropolymer polymerization. App. Br. 6—8. Thus, Appellants contend that the Examiner erred in finding that one of ordinary skill in the art would have been motivated to substitute GB ’268’s short chain surfactant for Morgan’s long chain surfactant. See id. at 4. “Non-obviousness cannot be established by attacking references individually where the rejection is based upon the teachings of a combination of references. . . . [The reference] must be read, not in isolation, but for what it fairly teaches in combination with the prior art as a whole.” In re Merck & Co., 800 F.2d 1091, 1097 (Fed. Cir. 1986). Moreover, as the Examiner points out, a reference may be relied upon for all that it would have reasonably suggested to one of ordinary skill in the art. See Merck & Co. v. Biocraft Labs., Inc., 874 F.2d 804, 807 (Fed. Cir. 1989) (quoting In re Lamberti, 545 F.2d 747, 750 (CCPA 1976)) (“‘[T]he fact that a specific [embodiment] is taught to be preferred is not controlling, since all disclosures of the prior art, including unpreferred embodiments, must be considered.’”). Although the fluoroalkyl surfactants exemplified in Morgan have 8 carbon atoms (e.g., 6,2-TBS), Morgan broadly discloses that fluoroalkyl 5 Appeal 2015-006620 Application 13/965,317 carboxylic acids and salts thereof having 6 to 20 carbon atoms, preferably 6— 12 carbon atoms, are useful dispersing agents in processes for polymerizing fluoromonomers (Morgan 4:22—25). Thus, Morgan would have suggested to one of ordinary skill in the art to use fluoroalkyl carboxylic acids and salts thereof with as few as 6 carbon atoms (“short chain” fluoroalkyl carboxylic acids and their salts) in combination with perfluoropolyether carboxylic acids or salts thereof (Morgan 2:56—65). Because GB ’268 teaches that carboxylic acid salts of hexafluoropropene epoxide, which have 6 carbon atoms, are used in dispersion processes for polymerization of fluoropolymers (GB ’268 1:21—24), such as the process disclosed in Morgan, one of ordinary skill in the art would have been motivated to substitute a carboxylic acid salt of the dimer hexafluoropropene epoxide, as taught in GB ’268, for the fluoroalkyl fluorosurfactant in Morgan’s polymerization process (e.g., instead of 6,2-TBS) in order to obtain the predictable result of using GB ’268’s carboxylic acid salt in accordance with its established function as a wetting agent. See KSR Int 7 Co. v. Teleflex Inc., 550 U.S. 398, 417 (2007) (In assessing the obviousness of claims to a combination of prior art elements, the question to be asked is “whether the improvement is more than the predictable use of prior art elements according to their established functions.”). Thus, Appellants have not persuaded us that the reason supporting the Examiner’s conclusion of obviousness is erroneous. Appellants argue that the statement that the “carboxylic acid salts are very active wetting agents and are used, for example, in the dispersion polymerization of fluoropolymers,” relied upon by the Examiner, is 6 Appeal 2015-006620 Application 13/965,317 unsupported by any polymerization data and thus is “not enabled.” App. Br. 9. A prior art patent is presumed to be enabled. See, e.g., In re Antor Media Corp., 689 F.3d 1282, 1287-88 (Fed. Cir. 2012). GB ’268 teaches that the carboxylic acid salts of the dimer of hexafluoropropene epoxide are used in the dispersion of fluoropolymers. GB ’268 1:21—24. Data in Appellants’ Specification demonstrates that the ammonium salt of the dimer acid disclosed in GB ’268 lowers the surface tension of water, albeit not as much as other surfactants. See Spec. 29—30 (Tables A and B); compare Example III, identified as Appellants’ as the ammonium salt of GB ’268’s dimer acid, with Example VI (Comp.) and Example IX (Comp.), identified by Appellants as ammonium perfluorooctanoate (C8) and 6,2-TBS, exemplified in Morgan. Additional data in Appellants’ Specification demonstrates that a dimer acid salt (DAS) is useful for polymerization of fluoromonomers, albeit producing more undispersed polymer (coagulum) when used alone than when used in combination with an ammonium salt of fluoropolyether acid (PFPEA). See Spec. 35 (Tables 2A and 2B); compare Comp. Ex.’s 5—7, using only DAS, with Ex.’s 1—3, using PFPEA in combination with DAS. Although salts of GB ’268’s dimer acid may have weaker surfactant properties (e.g., surface tension) or produce higher amounts of undispersed polymer when used in the polymerization of fluoromonomers, Appellants have not persuasively argued or presented evidence demonstrating why a person of ordinary skill in the art reading GB ’268 would have had to engage in undue experimentation in order to use the salts of the short chain dimer acid disclosed in GB ’268, having 6 carbon atoms, in a dispersion process for polymerization of fluoropolymers, such as 7 Appeal 2015-006620 Application 13/965,317 the process disclosed in Morgan. Nor have Appellants presented evidence demonstrating that salts of the short chain dimer acid disclosed in GB ’268 would not work in such a polymerization process. Thus, Appellants’ argument is not persuasive of reversible error in the Examiner’s rejections. Appellants argue that neither GB ’268 nor Morgan teach producing a undispersed fluoropolymer level of less than about 10 wt% and “the Examiner’s determination that the claimed level of undispersed fluoropolymer would necessarily result from the substitution of the dimer acid from GB ’268 into the Morgan et al process is clearly erroneous.” App. Br. 10, 12. The mere recitation of a property or characteristic not disclosed by the prior art does not necessarily confer patentability to a composition or a method of using that composition. See In re Skoner, 517 F.2d 947, 950 (CCPA 1975). The Examiner must provide a basis in fact and/or technical reasoning to reasonably support the determination that the allegedly inherent characteristic necessarily flows from the teachings of the applied prior art. Ex parte Levy, 17 USPQ2d 1461, 1464 (Bd. Pat. App. & Inter. 1990). The Examiner’s position that Morgan and GB ’268 teach “all the claimed ingredients, claimed amounts, and substantially similar process of making” is supported by a preponderance of the evidence (Final Act. 4). Morgan’s process for polymerizing a fluorinated monomer is similar to Appellants’ claimed process and uses a combination of a perfluoropolyether fluorosurfactant and a fluoroalkyl fluorosurfactant in the same amounts (i.e., a minor amount of the fluoropolyether acid or salt and a major amount of the fluoroalkyl 8 Appeal 2015-006620 Application 13/965,317 fluorosurfactant) as recited in the claims. Morgan 2:56—65, 16:6—16 (Example 2). Appellants’ Specification describes using the same perfluoropolyether carboxylic acid (Krytox® 157) as used in Morgan and the same dimer acid salts as used in GB ’268. Compare Spec. 11, 11. 1—17 (which explicitly mentions GB ’268), Spec. 27,11. 24—32, and Spec. 35 (Table 2A and 2B) with GB ’268 1:13—17 and Morgan 13:1— 22 (Table 1). Thus, we are not persuaded by the Appellants’ argument of reversible error in the Examiner’s determination that the claimed level of undispersed fluoropolymer would necessarily result from the substitution of the dimer acid from GB ’268 in Morgan’s process. Where the Examiner establishes a reasonable expectation of inherency and thereby evinces that a claimed process appears to be identical to a process disclosed by the prior art and/or that the products claimed by the applicant and disclosed in the prior art appear to be the same, the burden is properly shifted to the applicant to show that they are not. See In re Spada, 911 F.2d 705, 708 (Fed. Cir. 1990); In re Best, 562 F.2d 1252, 1254—56 (CCPA 1977). The data in Appellants’ Specification and the Declaration of Paul Douglas Brothers (hereinafter “Brothers Declaration”) demonstrate that when the dimer acid is employed alone as the polymerization agent, it produces high undispersed polymer levels. See Spec. 35; see also Brothers Declaration 4—5 (Table I and II). Appellants, however, have not shown that using the carboxylic acid salts of the dimer acid disclosed in GB ’268 as the fluoroalkyl fluorosurfactant in Morgan’s polymerization process in combination 9 Appeal 2015-006620 Application 13/965,317 with Morgan’s perfluoropolyether acid or salt would not produce less than about 10 wt% undispersed fluoropolymer (or less than about 3 wt% undisposed fluoropolymer, as recited in claim 31) based on the total weight of the fluoropolymer produced. Appellants also rely on the data in their Specification and the Brothers Declaration as evidence that significantly lower surface tension values are achieved when short chain dimer acid salts are used in combination with a fluoropolyether acid or salt as compared to using short chain dimer acid salts alone. App. Br. 18—20. Appellants argue that the Examiner erred by failing to properly consider the unexpected results. App. Br. 18. We are not persuaded by Appellants’ argument because the Examiner has properly considered Appellants’ evidence of unexpected results, but explains that the evidence is not persuasive because: (1) it does not provide a comparison with the closest prior art, e.g., Morgan, which requires a combination of a fluoropolyether acid or salt and a fluoroalkyl acid or salt, and (2) is not commensurate in scope with the claims, which are open to using the fluoropolyether acid or salt and fluorosurfactant in any amount as long as the polymerization agent comprises a minor amount of the fluoropolyether acid or salt and a major amount of the fluorosurfactant. Ans. 13. For these same reasons, we do not find Appellants’ evidence sufficient to rebut the Examiner’s prima facie case of obviousness. In sum, for the reasons stated in the Final Office Action, the Examiner’s Answer, and above, a preponderance of the evidence, taking into account Appellants’ evidence of unexpected results, favors the Examiner’s conclusion of obviousness as to claims 1—12, 14—26, 27—29, and 31. Accordingly, we sustain rejection of claims 1—12, 14—26, 28, 29, and 31 10 Appeal 2015-006620 Application 13/965,317 under pre-AIA 35 U.S.C. § 103(a) over Morgan in view of GB ’268, and we also sustain the rejection of claim 27 under pre-AIA 35 U.S.C. § 103(a) over Morgan in view of GB ’268, as evidenced by Carlson.5 Rejection 3 The Examiner’s finding regarding Morgan are the same as those discussed above with respect to Rejections 1 & 2. The Examiner finds GB ’741 is concerned with a process for polymerizing tetrafluoroethylene to obtain an aqueous colloidal polymer dispersion, and teaches using dispersing agents such as perfluoro-n-pentane sulfonic acid, ammonium perfluoro-n-hexanesulfonate, and potassium perfluoro-n-hexane sulfonate (Final Act. 7 (citing GB ’741 1,11. 13—17, 46— 52)). The Examiner finds that GB ’741 teaches that to be effective in polymerizing fluoropolymers in aqueous media, the dispersing agent should preferably have a carbon chain length of 5 to 10 to ensure a high degree of surface activity and solubility in water (Final Act. 7 (citing GB ’741 1:35— 43)). Based on that teaching, the Examiner finds that one of ordinary skill in the art would have been motivated to use ammonium perfluoro-n- hexanesulfonate or potassium perfluoro-n-hexane sulfonate, each of which has no more than 6 carbon atoms, as a fluoroalkyl fluorosurfactant in Morgan’s polymerization process (Final Act. 4). Appellants argue that the two examples in GB ’741 employ dispersing agents with a carbon chain length of 7 and 8, and thus, when the disclosure of GB ’741 is considered in its entirety, one of ordinary skill in the art would 5 Appellants’ argument that Carlson “adds nothing which would support the Examiner’s position” in Rejection 1 does not amount to a separate substantive argument with respect to claim 27 subject to Rejection 2. 11 Appeal 2015-006620 Application 13/965,317 clearly have no reason to select a fluorosurfactant with no more than 6 carbon atoms, absent hindsight reasoning. App. Br. 15—16. Appellants’ argument is not persuasive of reversible error in the Examiner’s rejection. As the Examiner points out, a reference may be relied upon for all that it would have reasonably suggested to one having ordinary skill the art, including non-preferred embodiments. Merck, 874 F.2d at 807. Morgan broadly discloses that fluoroalkyl surfactants carboxylic acids and salts thereof having 6 to 20 carbon atoms, preferably 6—12 carbon atoms, are useful dispersing agents in processes for polymerizing fluoromonomers (Morgan 4:22—25). Thus, Morgan would have suggested to one of ordinary skill in the art to use fluoroalkyl carboxylic acid salts with a little as 6 carbon atoms (“short chain” fluoroalkyl carboxylic acids) in combination with perfluoropolyether carboxylic acids or salts thereof (Morgan 2:56—65). Because GB ’741 teaches that dispersing agents should preferably have a carbon chain length of 5 to 10 to ensure a high degree of surface activity and solubility, one of ordinary skill in the art would have been motivated to use any of the dispersing agents disclosed in GB ’741, including a dispersing agent having a carbon chain length of 6 (e.g., ammonium perfluoro-n- hexanesulphonate) in Morgan’s polymerization process (e.g., instead of 6,2- TBS). See In re Mills, 470 F.2d 649, 651 (CCPA 1972) (“[A] reference is not limited to the disclosure of specific working examples.”); see also In re Fulton, 391 F.3d 1195, 1201 (Fed. Cir. 2004) (“The prior art’s mere disclosure of more than one alternative does not constitute a teaching away from any of these alternatives because such disclosure does not criticize, discredit, or otherwise discourage the solution claimed in the . . . application.”). Moreover, Appellants do not address the Examiner’s reliance 12 Appeal 2015-006620 Application 13/965,317 on Morgan for teaching fluoroalkyl fluorosurfactants having 6—20 carbon atoms. See Reply Br. 4, 5; see also In re Keller, 642 F.2d 413, 426 (CCPA 1981) (“[0]ne cannot show non-obviousness by attacking references individually where, as here, the rejections are based on combinations of references.”). As with Rejections 1 and 2, the Appellants argue that the Examiner erred by failing to properly consider the unexpected results. App. Br. 18. For the same reasons as discussed above with regard to Rejections 1 and 2, we agree with the Examiner that Appellants’ evidence of unexpected results is not sufficient to overcome the determination of obviousness. See Ans. 13. DECISION For the above reasons, the Examiner’s rejections of claims 1—29 and 31 are affirmed. 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 13