11529181 (P.T.A.B. Mar. 26, 2013)

Ex Parte Stevens et al

Patent Trial and Appeal BoardMar 26, 2013

11529181 (P.T.A.B. Mar. 26, 2013)

UNITED STATES PATENT AND TRADEMARKOFFICE 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. 11/529,181 09/28/2006 Gary Stevens 2006P08263US 7974 7590 03/26/2013 Siemens Corporation Intellectual Property Department 170 Wood Avenue South Iselin, NJ 08830 EXAMINER CHANG, VICTOR S ART UNIT PAPER NUMBER 1788 MAIL DATE DELIVERY MODE 03/26/2013 PAPER 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. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ________________ Ex parte GARY STEVENS, JAMES D.B. SMITH, and JOHN W. WOOD ________________ Appeal 2011-013565 Application 11/529,181 Technology Center 1700 ________________ Before RICHARD E. SCHAFER, TERRY J. OWENS, and JEFFREY T. SMITH, Administrative Patent Judges. Per Curiam. DECISION ON APPEAL Appeal 2011-013565 Application 11/529,181 2 STATEMENT OF THE CASE Appellants appeal under 35 U.S.C. § 134(a) from the Examiner’s final rejection of claims 18-22, 24, and 27 on June 2, 2011. We have jurisdiction under 35 U.S.C. § 6(b). For the reasons set forth below, we REVERSE. THE INVENTION Appellants claim a continuous organic-inorganic resin and a porous media comprising mica paper impregnated with the continuous organic- inorganic resin. Claim 18 is representative of the present application’s claims and is reproduced here: 18. A continuous organic-inorganic resin comprising: a host resin network; a first class of inorganic high thermal conductivity fillers evenly dispersed in said host resin network and essentially completely co-reacted with said host resin network, wherein the first class of inorganic fillers is effective to provide a continuous composite material via surface functional groups on said first class of inorganic high thermal conductivity fillers that form covalent linkages with said host resin network; and a second class of inorganic high thermal conductivity fillers unevenly dispersed in said host resin network, wherein said second class of inorganic high thermal conductivity fillers aggregates into secondary structures; wherein said first class and said second class of high thermal conductivity fillers are selected from at least one of oxides, nitrides, and carbides; and wherein at least a portion of said first class and said second class of high thermal conductivity fillers comprise morphologies chosen from the group consisting of hexagonal, cubic, orthorhombic, rhombohedral, tetragonal, whiskers and tubes. Appeal 2011-013565 Application 11/529,181 3 REFERENCES Jackson US 4,361,661 Nov. 30, 1982 Chopra US 2005/0116336 A1 Jun. 2, 2005 Anton1 EP 0 081 154 A1 Jun. 15, 1983 REJECTIONS Claims 18-20, 24 and 27 stand rejected2 under 35 U.S.C. § 103(a) as being unpatentable over Chopra in view of Jackson (Ans. 4). Claims 21 and 22 stand rejected under 35 U.S.C. § 103(a) as being unpatentable over Anton in view of Chopra and Jackson (Ans. 7). Claim 22 also stands rejected under 35 U.S.C. § 112, first paragraph (p. 2 of the Final rejection mailed on Jun. 2, 2011). The rejection of claim 22 under 35 U.S.C. § 112, first paragraph is not being appealed (App. Br. 3). We need to address only claim 18, which is the sole independent claim to a continuous organic-inorganic resin. The Examiner does not rely upon Anton for any disclosure that remedies the deficiency in Chopra and 1 We note that the Examiner’s statement of rejection of claims 21 and 22 refers to the Derwent abstract of Anton (Ans. 7). However, the Examiner refers to the publication date of Anton as Jan. 14, 1987 (Ans. 4), which appears to correspond to the publication date of EP 0 081 154 B1 rather than to the publication date of the Derwent abstract itself or to the publication date of EP 0 081 154 A1, each of which is attached to the Office action mailed on Jan. 20, 2011. For the purpose of considering the appeal, we have considered the Derwent abstract of EP 0 081 154 A1. 2 We note that claim 24 is omitted from the Examiner’s statement of rejection (Ans. 4). However, claim 24 is addressed in the body of the rejection (Ans. 7), and furthermore, Appellants request review of a rejection of claim 24 under 35 U.S.C. § 103(a) as being unpatentable over Chopra in view of Jackson (App. Br. 3). We therefore consider claim 24 to be rejected under 35 U.S.C. § 103(a) as being unpatentable over Chopra in view of Jackson. Appeal 2011-013565 Application 11/529,181 4 Jackson as to claim 18’s continuous organic-inorganic resin which is required by claims 21 and 22 (Ans. 7).3 DISCUSSION OF THE REJECTION OF CLAIM 18 Claim 18 requires a host resin network and two classes of inorganic high thermal conductivity fillers. The first of the two classes of fillers is evenly dispersed in the host resin network, and it is effective to provide a continuous composite material via surface functional groups that form covalent linkages with the host resin network. The second of the two classes of fillers is unevenly dispersed in the host resin network, and it forms aggregates into secondary structures. (Spec. ¶ [00113], p. 37). The fillers that do not form secondary structures (i.e. the first class of fillers) are of a different type than those that do form secondary structures; they may be chemically different, morphologically different, or surface treated to limit their co-reactivity (Spec. ¶ [00110], p. 36). The fillers may be surface treated to introduce surface functional groups that allow for the essentially complete co-reactivity with the host resin network (Spec. ¶ [00114], pp. 37-38). Chopra discloses nano-composite materials for thermal management applications such as electronics, optical, and/or mechanical systems (¶ [0025]). Nanostructures are incorporated into a base, or matrix, material (¶ [0049]). Chopra discloses an embodiment in which nanotubes are substantially uniformly mixed into a base material (¶ [0062], Fig. 1). Chopra 3 In claim 22 “The continuous organic-inorganic resin of claim 21” should read “The porous media of claim 21.” Appeal 2011-013565 Application 11/529,181 5 further discloses another embodiment in which nanotubes can be aligned (¶ [0065], Fig. 2). Jackson discloses thermally conductive compositions for thermal backfill materials (col. 1, ll. 16-24) and for thermally conductive molds for the foundry industry (col. 1, ll. 24-27). The compositions comprise an essentially homogeneous mixture of sand or a sand-like particulate material with a binder, wherein the binder comprises an organic adhesive having an inorganic fine particle filler therein (col. 2, ll. 17-27). The binder is present in at least an amount sufficient to begin to form a binder meniscus between adjacent sand particles, while the filler is present in the binder in an amount which significantly increases the effective thermal conductivity of the composition (col. 2, ll. 17-21). Jackson further discloses that the backfill composition may comprise coupling agents to increase adhesion of the adhesive to inorganic filler and sand (col. 2, ll. 35-41). The Examiner finds that the embodiment of Chopra in which the nanotubes are substantially uniformly mixed into a base material (¶ [0062], Fig. 1) corresponds to the presently recited first class of inorganic filler that is evenly dispersed (Ans. 5). The Examiner finds that the embodiment of Chopra in which nanotubes can be aligned (¶ [0065], Fig. 2) corresponds to the presently recited second class of inorganic filler that aggregates into secondary structures (Ans. 5). The Examiner finds that Chopra fails to disclose a filler that is covalently bonded to and essentially completely co-reacted with the host resin network (Ans. 5), corresponding to the presently recited first class of Appeal 2011-013565 Application 11/529,181 6 fillers that is effective to provide a continuous composite material via surface functional groups that form covalent linkages with the host resin network. The Examiner writes in the rejection that “[i]t would have been obvious to one of ordinary skill in the art to likewise modify Chopra’s thermal conductive composite with [a] workable amount of silane coupling agents, as motivated by the desire to obtain the beneficiary effect of an improved adhesion between the fillers and the host resin.” (Ans. 6). The Examiner has thus taken the position that it would have been obvious to incorporate a “workable amount” of a coupling agent into the composition of Chopra. The Examiner continues, it would have been apparent to one of ordinary skill in the art to initially form a homogeneous mixture of Chopra’s composition with suitable coupling agents (as taught by Jackson) prior to the curing or crosslinking of the host resin, so as to obtain a uniformly dispersed first class of filler, then the second class of filler aggregated to obtain its desired secondary structure, and followed by curing or crosslinking the thermosetting host resin (e.g., epoxy) to obtain a host resin network. (Ans. 6). This statement refers to a sequence of steps that is asserted to be “apparent” to the person of ordinary skill, and it does not specifically use the word “obvious.” Nonetheless, it appears to be a conclusory statement about the means by which the person of ordinary skill would have arrived at the presently claimed invention by following the combined disclosures of Chopra and Jackson. Accordingly, we consider the Examiner’s position to Appeal 2011-013565 Application 11/529,181 7 be that it would have been obvious to perform this particular sequence of steps based upon the combined disclosures of Chopra and Jackson. ARGUMENTS Appellants firstly argue that the Examiner has employed hindsight analysis by using the inventors’ own teachings to reject the present claims (App. Br. 5).4 Appellants argue that, even considering the ordinary level of skill, Chopra and Jackson would not reasonably have led the person of ordinary skill in the art to select a first class of fillers that is evenly dispersed and essentially completely co-reacted with the host resin matrix, and a second class of fillers that is unevenly dispersed and which aggregates into secondary structures (see id.). Appellants secondly argue that there is no basis in the prior art references for the Examiner’s conclusion regarding the order of steps that the person of ordinary skill would take in light of Chopra and Jackson (Rep. Br. second full para. on p. 2). Appellants argue that there is no disclosure in Chopra or Jackson that would lead the skilled artisan to use coupling agents in a way that couples only some of the nanotubes in Chopra while leaving other nanotubes to aggregate into secondary structures (App. Br. second full para. on p. 7). Appellants similarly argue that there is no teaching or suggestion in Jackson that would reasonably lead the skilled 4 We note that Appellants additionally point to a portion of the Office action mailed on Jan. 10, 2011; however, the cited portion of this action does not appear in the Examiner’s answer to the appeal brief or in the final action mailed on Jun. 2, 2011 which precedes the present appeal. Therefore, we do not consider this to be part of the Examiner’s present rationale for rejecting the claims. Appeal 2011-013565 Application 11/529,181 8 artisan to incorporate coupling agents to a portion of the nanotubes in Chopra, but not to another portion (App. Br. third full para. on p. 7). Appellants’ first argument appears to emphasize two aspects of the invention in particular: firstly, the need to have two classes of filler which differ in the degree of dispersion in the host resin network; and secondly, the need for the first class of fillers to be essentially completely co-reacted with the host resin network and the need for the second class to form aggregates. With regard to this argument, the Examiner argues that Chopra discloses that “different kinds” of nanostructures may be incorporated into the nano-composites (Chopra ¶ [0052], Ans. 8). The Examiner argues that these “different kinds” of nanostructures correspond to the presently recited first and second classes of fillers. While we understand the Examiner’s position that Chopra discloses that one or more different kinds of nanostructures may be used in the nano- composite materials, we note in particular that the Examiner’s position does not conclude that Chopra discloses the use of two fillers which differ by their degree of dispersion or their surface functionalization. The bare description in Chopra of “different kinds” of fillers does not amount to a disclosure that two different kinds of nanostructures may be used simultaneously in the nano-composite materials, one of which is surface- functionalized (as presently recited for the first class of fillers), and another of which forms aggregates (as presently recited for the second class of fillers). Ultimately, the Examiner’s reliance upon Chopra’s mere disclosure of “different kinds” of nanostructures is not sufficient to establish that Appeal 2011-013565 Application 11/529,181 9 Chopra describes or would have suggested such a mixture of the two different classes of fillers that is required by the present claims. The Examiner interprets Appellants’ second argument (Ans. 10) as though Appellants believe that the rejection is premised upon there being no coupling agent applied to the nanotubes which are aggregated into secondary structures (corresponding to the present second class of filler). The Examiner argues that the rejection does not, in fact, propose using coupling agents for only some kinds of nanotubes but not for others. The Examiner argues that Appellants’ assertions amount to a misinterpretation of the rejection (see id.). While the Examiner contends that Appellants have misinterpreted the rejection, the Examiner does not provide any further clarification of the rejection or any further or alternative interpretation of the rationale for combining Chopra and Jackson. The Examiner does not explain why or how the person of ordinary skill could have arrived at the presently claimed invention by combining Chopra and Jackson in any manner other than that laid out in Appellants’ argument (i.e. by incorporating a coupling agent that would react with a portion of the filler of Chopra but not with another portion). Rather, the Examiner repeats the conclusory statement that appears in the rejection regarding a particular order of steps that would have been “apparent” to the person of ordinary skill (see id.). It appears to us that the order of steps which the Examiner relies upon does, in fact, amount to using a coupling agent that would react with a portion of the filler of Chopra but not with another portion. The Examiner’s position regarding the incorporation of a “workable amount” of a coupling Appeal 2011-013565 Application 11/529,181 10 agent into the compositions of Chopra only appears to arrive at the claimed invention so long as the coupling agent only reacts with one portion of the filler of Chopra but not with another portion. We therefore do not find any misinterpretation of the rejection on Appellants’ part. Upon review of Chopra and Jackson, we find no evidence in the references to Chopra and Jackson that supports the sequence of operations which the Examiner concludes is “apparent” (Ans. 6, 10). Upon review of the Examiner’s rejections and arguments, we find no articulated reasoning as to how this particular sequence of steps would be arrived at by combining only the disclosures of Chopra and Jackson. In particular, we find nothing in Chopra, Jackson, or the Examiner’s position that provides a disclosure or suggestion of the sequence of operations of firstly incorporating a coupling agent into the composition of Chopra to achieve a first class of filler, then aggregating another portion of a filler to achieve a second class of filler, then curing the resin. More generally, we find no articulated reasoning in the Examiner’s rejection or arguments as to why the person of ordinary skill in the art would have been motivated by the disclosures of Chopra and/or Jackson to incorporate a coupling agent into the composition of Chopra in such a way that only a portion of the nanostructures of Chopra becomes surface- functionalized and co-reacted with and evenly dispersed in the host resin network, thereby leaving another portion of the nanostructures which may become aggregated. The Supreme Court, quoting In re Kahn, 441 F.3d 977, 988, (Fed. Cir. 2006), stated that “[R]ejections on obviousness cannot be sustained by mere Appeal 2011-013565 Application 11/529,181 11 conclusory statements; instead, there must be some articulated reasoning with some rational underpinning to support the legal conclusion of obviousness.” KSR Int'l. Co. v. Teleflex Inc., 550 U.S. 398, 418 (2007). In the present case, we do not find any articulated reasoning in the Examiner’s rejection or arguments based upon the disclosures of Chopra and Jackson that supports the sequence of operations which form the basis for the combination of the references in a manner that arrives at the presently claimed invention. For the above reasons we reverse the rejections. DECISION/ORDER The rejection of claims 18-20, 24 and 27 under 35 U.S.C. § 103(a) as being unpatentable over Chopra in view of Jackson and the rejection of claims 21 and 22 under 35 U.S.C. § 103(a) as being unpatentable over Anton in view of Chopra and Jackson are reversed. It is ordered that the Examiner’s decision is reversed. REVERSED kmm