Ex Parte Musa et alDownload PDFPatent Trial and Appeal BoardAug 18, 201713129007 (P.T.A.B. Aug. 18, 2017) Copy Citation 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. 13/129,007 07/29/2011 Osama M. Musa 3190USPCT 5164 67749 7590 Ashland LLC WILLIAM J. DAVIS, ESQ. 1005 U.S. 202/206 Bridgewater, NJ 08807 EXAMINER MILLER, DAVID L ART UNIT PAPER NUMBER 1763 NOTIFICATION DATE DELIVERY MODE 08/22/2017 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): ntietcheu @ ashland.com wdavis@ashland.com schen@ashland.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte OSAMA M. MUSA, CUIYUE LEI and KOLAZI S. NARAYANAN Appeal 2017-001793 Application 13/129,0071 Technology Center 1700 Before ROMULO H. DELMENDO, KAREN M. HASTINGS, and JAMES C. HOUSEL, Administrative Patent Judges. PER CURIAM. DECISION ON APPEAL Appellants seek our review under 35 U.S.C. § 134(a) of the Examiner’s decision rejecting claims 1-3, 7, 8, 10-12, 16, 17, 20-28, and 30. We have jurisdiction over the appeal under 35 U.S.C. § 6(b). We AFFIRM. 1 According to Appellants, the real party in interest is ISP Investments Inc. (Appeal Brief 2). Appeal 2017-001793 Application 13/129,007 Independent claim 1 is illustrative of the subject matter on appeal (emphasis added): 1. A copolymer comprising (A) N-vinyl formamide, and (B) N-vinyl-c-caprolactam, and (C) ethylene glycol as a reaction solvent which is incorporated into the polymer as a solvent adduct during polymerization, wherein the measurable cloud point temperature of a 1 % solution of the copolymer in water is from 40°C to the boiling point of the 1 % solution of the copolymer in water at ambient atmospheric pressure. The Examiner maintains the following rejections: (a) claims 1, 11, 12, 16, 17, 20-27, and 30 under 35 U.S.C. § 102(b) as anticipated by Bakeev et al. (US 6,242,518 Bl, issued June 5, 2001) (“Bakeev”); (b) claims 3, 10, and 28 under 35 U.S.C. § 103(a) as unpatentable over Bakeev; and (c) claims 2, 7, and 8 as unpatentable over Bakeev in view of Sloan Jr. et al. (US 5,639,925, issued June 17, 1997) (“Sloan”). ANALYSIS Upon consideration of the evidence relied upon in this appeal and each of Appellants’ contentions, we find that the preponderance of evidence supports the Examiner’s conclusion that the subject matter of Appellants’ claims 1-3, 7, 8, 10-12, 16, 17, 20-28, and 30 are unpatentable over the applied prior art. We sustain the Examiner’s rejections essentially for the reasons set out by the Examiner in the Answer. We add the following primarily for emphasis. 2 Appeal 2017-001793 Application 13/129,007 The §102 rejection based on Bakeev Claims 1, 11, 12, 16, 17, 20-27, and 30 are rejected as anticipated by Bakeev. Appellants argue claims 1, 11, 12, 16, 17, 20, 21, 26, 27, and 30 as a group and claims 22-25 as a group (Appeal Br. 3-8). We select claims 1 and 22 as representative claims for these groups. Claims 1. 11. 12. 16. 17. 20.21.26. 27. and 30 Appellants’ principal argument in the Appeal Brief regarding claim 1 is that Bakeev discloses the use of water and a glycol ether having an alkoxy group having at least three carbon atoms as a polymerization solvent, which is a different compound than ethylene glycol (Appeal Br. 3-4; Reply Br. 2- 5). Appellants contend Bakeev discloses ethylene glycol as a carrier solvent but it is not present during polymerization and, thus, is not incorporated as an adduct during polymerization, as recited in claim 1 {id. at 4-5). In view of this, Appellants argue Bakeev does not disclose a copolymer comprising, among other things, “ethylene glycol as a reaction solvent which is incorporated into the polymer as a solvent adduct during polymerization,” as recited in claim 1 {id. at 3-7). Appellants’ arguments are unpersuasive. The Examiner interprets “a solvent adduct” as “the attachment of the solvent (ethylene glycol) to the polymer by means of bonding such as covalent, ionic or physical bonding, such as charge interactions between the solvent and the polymer” (Ans. 2). Appellants dispute this interpretation in the Reply Brief.2 However, the Examiner’s interpretation was presented at page 2 of the Final Office Action mailed May 18, 2015. Appellants have not shown good cause why this argument could not have been presented in the Appeal Brief. Therefore, we 2 Reply Br. 3—4. 3 Appeal 2017-001793 Application 13/129,007 will not consider this argument that was newly raised in the Reply Brief. 37 C.F.R. § 41.41(b)(2). Moreover, Appellants’ Specification does not exclude charge interactions as the mechanism for incorporation of the “solvent adducts” into the copolymer. For instance, paragraph 36 of Appellants’ Specification states (emphases added): The polymerization between A-vinyl formamide and vinyl amide moiety/acrylamide moiety is performed in a reaction solvent having either a hydroxyl group or a thiol group, or blends comprising such solvents. These polymerization reaction solvents are employed because they are capable of being incorporated into the polymer as a solvent adduct during polymerization. Without being bound to specific theory, it is believed that such reaction solvents promote a greater extension of polymer molecules in solution, improve the solubility of the polymer in aqueous solution, promote solubilization, and/or enhance polymer compatibility at high injection temperature (i.e., not phase-separate). For example, when the solvent comprises a lactam, such as A-hydroxymethyl-2-caprolactam or A-hydroxyethyl-2-pyrrolidone, then the solvent adduct may assist in enhancing the polymer's properties, such as solubilization, or more specifically, gas hydrate inhibition. This passage contains speculation or theory. Therefore, it fails to establish, factually, the precise mechanism by which the polymerization solvent is “incorporated into the polymer as a solvent adduct during polymerization” (i.e., by what mode of bonding or interaction) or what structure would result. Paragraph 37 of the Specification states “[ajgain, not to be bounded by theory, it is also believed that the solvent adduct may impart surfactant like properties to cause an extended polymer conformation in solution, 4 Appeal 2017-001793 Application 13/129,007 which presumably exposes more of the polymer molecule to interact with the hydrate crystal lattice.” This disclosure comports with the above description in paragraph 36 that the solvent adducts “promote a greater extension of polymer molecules in solution, improve the solubility of the polymer in aqueous solution, promote solubilization, and/or enhance polymer compatibility at high injection temperature.” Thus, paragraphs 36 and 37 of the Specification indicate that the solvent adducts can function like surfactants, which can interact with other molecules via charge interactions.3 In view of this guidance as to the nature of the solvent adducts in Appellants’ Specification,4 the Examiner’s claim interpretation is reasonable. With regard to the disclosure of Bakeev, the Examiner finds it discloses the copolymer of claim 1, citing the carrier solvent of Bakeev as the reaction solvent recited in claim 1 (Ans. 3). Specifically, the Examiner finds the carrier solvent of Bakeev, which is ethylene glycol, forms an adduct with the copolymer because there would be a charge interaction between the solvent and the polymer {id.). In other words, the Examiner 3 See Wiley Online Library entries for Surfactant Science and Technology, Third Edition, chapter 2, pages 31 and 37, at http://onlinelibrary.wiley.com/doi/10.1002/047174607X.ch2/pdf and for chapter 10, pages 333-335, at http://onlinelibrary.wiley.com/doi/10.1002/047174607X.chl0/pdf (last visited August 17, 2017). 4 Appellants cite paragraph 66 of their Specification, asserting it demonstrates that as much as 15% of the copolymer is ethylene glycol (Reply Br. 4). However, paragraph 66 is silent with regard to a reaction solvent and solvent adducts. Paragraph 66 merely discloses the residual monomer content of an exemplary copolymer without stating whether the copolymer includes a solvent, such as ethylene glycol, and whether the solvent is bonded to or incorporated into its structure in some manner. 5 Appeal 2017-001793 Application 13/129,007 finds the ethylene glycol carrier solvent of Bakeev would be incorporated into the polymer as a solvent adduct under the Examiner’s broadest reasonable interpretation of “ethylene glycol as a reaction solvent which is incorporated into the polymer as a solvent adduct during polymerization.” Moreover, the Examiner finds claim 1 recites a product-by-process limitation and to the extent Bakeev does not disclose the same process recited in claim 1 (e.g., the ethylene glycol of Bakeev is used as a carrier solvent, not a polymerization or reaction solvent), the copolymer of Bakeev, after exposure to the carrier solvent, would reasonably appear to have the same structure as the copolymer of claim 1 {id.). A preponderance of evidence supports the Examiner’s findings. Bakeev discloses a copolymer formed from vinyl caprolactam and N-vinyl formamide and the use of ethylene glycol as a carrier solvent for the copolymer (Bakeev 2:14-31, 2:60-64). Appellants have not demonstrated (e.g., by providing experimental tests results) that the copolymer of Bakeev and its ethylene glycol carrier solvent, under the Examiner’s interpretation, would have a different structure than the copolymer of claim 1. It has been well established that, when a product recited in product-by-process format reasonably appears to be the same as or obvious from a product of the prior art, the burden is on applicant to show that the prior art product is in fact different from the claimed product, even though the products may be made by different processes. In re Thorpe, 111 F.2d 695, 697 (Fed. Cir. 1985). Claims 11, 12, 16, 17, 20, 21, 26, 27, and 30 depend from claim 1 and have not been argued separately from claim 1 (Appeal Br. 7-8). 6 Appeal 2017-001793 Application 13/129,007 For the reasons discussed above and those set forth in the Examiner’s Answer, we sustain the Examiner’s § 102 rejection of claims 1, 11, 12, 16, 17, 20, 21, 26, 27, and 30 over Bakeev. Claims 22-25 Claim 22 depends from claim 9, which depends from claim 1, and further recites “wherein the measureable cloud point temperature is from 66°C to the boiling point of the 1% solution of the copolymer in water at ambient atmospheric pressure.” Claims 23 and 24 depend from claim 22 and claim 25 depends from claim 1. These claims also recite a cloud point temperature for the copolymer of claim 1. The Examiner finds that although Bakeev is silent with regard to cloud point temperature, the copolymer of Bakeev would have the cloud point temperatures of claims 22-25 because it would reasonably appear the copolymer has the same chemical structure (Ans. 5). Appellants assert the copolymer of Bakeev would not possess the claimed cloud point temperatures recited in claim 22-25 because the copolymer of Bakeev would have a different structure (Appeal Br. 8). However, as discussed above, Appellants have not demonstrated that the copolymer of Bakeev would not have the same structure as the copolymer of claim 1 under the Examiner’s interpretation of the language of claim 1. Therefore, Appellants’ arguments do not direct us to a reversible error in the Examiner’s rejection. For these reasons and those set forth in the Examiner’s Answer, we sustain the § 102 rejection of claims 22-25 over Bakeev. 7 Appeal 2017-001793 Application 13/129,007 The §103 rejection of claims 3, 10, and 28 over Bakeev Claims 3, 10, and 28 are rejected under 35 U.S.C. § 103(a) as unpatentable over Bakeev. The Examiner finds that although Bakeev does not disclose the amounts of N-vinyl formamide and n-vinylcaprolactam present in its copolymer, these monomers are respectively hydrophilic and hydrophobic so it would have been obvious to determine the optimal content of these monomers via routine experimentation to provide a copolymer with tailored hydrophobic properties (Ans. 8, 15-16). Appellants assert the claimed copolymer co-optimizes gas hydrate inhibition and resistance to phase separation at higher temperatures, which are two properties having an inverse relationship with one another, and Bakeev does not disclose or suggest such an optimization (Appeal Br. 9-10; Reply Br. 5-6). Appellants’ arguments are unpersuasive. First, claims 3, 10, and 28 do not recite gas hydrate inhibition or a resistance to phase separation at higher temperatures but instead recite broad ranges for each of the monomers and polymer molecular weights.5 Indeed, claim 3 reads on virtually any amount for each monomer. Second, the Examiner provides a rationale for modifying the monomer unit content of Bakeev’s copolymer 5 Claim 3 recites the two monomer unit contents are about 1-99 wt% of the copolymer. Claim 10 recites an average molecular weight of about 500 amu to about 5,000,000 amu for the copolymer. Claim 28 recites that the N-vinyl formamide monomer units are no more than 50 wt% of the copolymer. These ranges encompass a wide range of copolymers having different blends of the monomer units and copolymers varying in average molecular weight. 8 Appeal 2017-001793 Application 13/129,007 (i.e., via the discovery of the optimal or workable ranges of monomer unit content through routine experimentation to provide a desirable degree of hydrophobicity) and finds this would result in the copolymers of claims 3, 10, and 28. Moreover, Appellants’ argument that their claimed invention addresses a different problem than what was contemplated by the prior art does not identify a reversible error in the Examiner’s rejection. “As long as some motivation or suggestion to combine the references is provided by the prior art taken as a whole, the law does not require that the references be combined for the reasons contemplated by the inventor” {In re Beattie, 974 F.2d 1309, 1312 (Fed. Cir. 1992)). In addition, the discovery of a property for a composition disclosed in the prior art does not by itself defeat a prima facie case of obviousness {In re Dillon, 919 F.2d 688, 693 (Fed. Cir. 1990) (en banc)). For these reasons and those set forth in the Examiner’s Answer, we sustain the § 103 rejection of claims 3,10, and 28 over Bakeev. The §103 rejection of claims 2, 7, 8 over Bakeev and Sloan Claims 2, 7, and 8 are rejected as unpatentable over Bakeev in view of Sloan. Appellants merely reiterate the arguments set forth for the § 102 and §103 rejections discussed above and contend Sloan does not remedy the deficiencies of Bakeev. Appeal Br. 11-12. For the reasons set forth above, there are no deficiencies in the § 102 and § 103 rejections that require curing by Sloan. For these reasons and those set forth in the Examiner’s Answer, we sustain the § 103 rejection of claims 2, 7, and 8 over Bakeev and Sloan. 9 Appeal 2017-001793 Application 13/129,007 DECISION The Examiner’s rejections of claims 1-3, 7, 8, 10-12, 16, 17, 20-28, and 30 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)(1). AFFIRMED 10 Copy with citationCopy as parenthetical citation
