12335816 (P.T.A.B. Aug. 2, 2016)

Ex Parte Huang

Patent Trial and Appeal BoardAug 2, 2016

12335816 (P.T.A.B. Aug. 2, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 12/335,816 12/16/2008 23906 7590 08/04/2016 EIDUPONTDENEMOURSANDCOMPANY LEGAL PATENT RECORDS CENTER CHESTNUT RUN PLAZA 721/2340 974 CENTRE ROAD, P.O. BOX 2915 WILMINGTON, DE 19805 Tao Huang 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 ATTORNEY DOCKET NO. CONFIRMATION NO. CIA092USNA 1802 EXAMINER SCHIFFMAN, BENJAMIN A ART UNIT PAPER NUMBER 1742 NOTIFICATION DATE DELIVERY MODE 08/04/2016 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): PTO-Legal.PRC@dupont.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Exparte TAO HUANG Appeal2015-001161 Application 12/335,816 Technology Center 1700 Before BRADLEY R. GARRIS, TERRY J. OWENS, and MICHAEL G. McMANUS, Administrative Patent Judges. McMANUS, Administrative Patent Judge. DECISION ON APPEAL The Examiner finally rejected claims 1-8 and 10-26 of Application 12/335,816 under 35 U.S.C. Â§ 103(a) as obvious. Final Act. (June 3, 2014). Appellant 1 seeks reversal of these rejections pursuant to 35 U.S.C. Â§ 134(a). We have jurisdiction under 35 U.S.C. Â§ 6. For the reasons set forth below, we AFFIRM. 1 E.I. du Pont de Nemours and Company is identified as the real party in interest. Appeal Br. 1. Appeal2015-001161 Application 12/335,816 BACKGROUND The present Application relates to a process for forming nanofibers by application of a polymer solution to a high speed rotating spin disk having a flat surface. Spec. 2. The polymer solution forms a film on the spin disk that migrates to the edge of the disk. Id. Upon leaving the disk the solvent is vaporized and polymer nanofibers are formed. Id. at 4--5. Claim 1 is representative of the claims at issue and is reproduced below: 1. A nanofiber forming process comprising the steps of: supplying a spinning solution having at least one polymer dissolved in at least one solvent at a temperature between about 100Â° C. and the freezing point of the solvent to a rotating spin disk with a rotational speed between about 4,000 rpm and about 100,000 rpm, the spin disk having a flat surface and a forward surface discharge edge located in the plane of the rotating spin disk at the circumference of the flat surface; issuing the spinning solution from the spin disk along the flat surface so as to fully wet the flat surface of the spin disk and to distribute the spinning solution as a film toward the forward surface discharge edge of the spin disk; and forming separate fibrous streams from the spinning solution in the plane of the disk while the solvent vaporizes to produce polymeric nanofibers of diameter 800 nm or less; wherein the flat surface defines a plane, the plane is perpendicular to the axis of rotation of the disk, and the surface and the forward discharge edge are all in the plane. Appeal Br. 18 (Claims App.). 2 Appeal2015-001161 Application 12/335,816 REJECTIONS On appeal, the Examiner maintains the following rejections: 1. Claims 1-8, 10-16, and 22-26 are rejected under 35 U.S.C. 103(a) as being unpatentable over Snowden '3362 in view ofFuruya3 and Snowden '783. 4 Final Act. 3. 2. Claims 17-20 are rejected under 35 U.S.C. 103(a) as being unpatentable over Snowden '336 and Furuya and Snowden '783 further in view of Armantrout. 5 Final Act. 8. 3. Claim 21 is rejected under 35 U.S.C. 103(a) as being unpatentable over Snowden '336 in view of Armantrout, Furuya, and Snowden '783 and further in view ofKleinmeyer. 6 Final Act. 9. DISCUSSION The Examiner rejected claims 1-8, 10-16, and 22-26 as obvious over Snowden '336 in view of Furuya and Snowden '783. Final Act. 3. The Appellant argues for reversal on several bases. "Surface Discharge Edge Located in the Plane of the Rotating Spin Disk" First, Appellant argues that Snowden '336 does not teach a process where the forward discharge edge is located in the same plane as the rotating 2 US 4, 178,336, Dec. 11, 1979. 3 US 4,348,341, Sept. 7, 1982. 4 US 4,294,783, Oct. 13, 1981. 5 US 2006/0012084 Al, published Jan. 19, 2006. 6 US 2002/0089094 Al, published July 11, 2002. 3 Appeal2015-001161 Application 12/335,816 spin disk. Appeal Br. 4. In response, the Examiner indicates that the rejection does not rely upon Snowden '336 to teach such features, but rather relies upon Snowden '783. Ans. 2; Final Act. i-fi-f 11, 12. Snowden '783 does appear to teach a discharge edge in the same plane as the spin disk. Snowden '783, Fig. 3. Accordingly, the Board will not reverse on this basis. Fiber Diameter Limitations The Appellant further argues the cited references do not properly teach one to make fibers of the claimed diameter. Appeal Br. 8, 14--15. Claim 1 requires that the process "produce polymeric nanofibers of diameter 800 nm or less." The Examiner finds that Furuya teaches a method of spinning fibers with diameters of0.1to10 microns (100 to 10,000 nanometers) which overlap the claimed range. Final Act. 4. The Examiner further finds that one of skill in the art would recognize that variation of certain parameters such as solution viscosity, spinning speed, cup/disk diameter, attenuation air velocity, etc. could be optimized to obtain a desired fiber diameter. Id. The Appellant asserts that the Examiner's "find[ing] an optimum configuration for spinning from Furuya and apply[ing] it to Snowden to achieve the present results" amount to an improper taking of Official Notice. Appeal Br. 7. The Examiner maintains that no official notice was taken. Rather, the "purpose of the Furuya reference is to demonstrate that process parameters, e.g. solution viscosity, rotation speed, cup/disk diameter, attenuation air velocity, are readily controlled/optimized by the skilled artisan and would result in fiber diameters within the claimed range." Answer 2. The Examiner further finds that such parameters "are presented as controllable variable[s] that the skilled artisan would recognize as tunable 4 Appeal2015-001161 Application 12/335,816 in the process of Snowden '336 to result in the Furuya diameters." Answer 4. Snowden '336 teaches that: [a]s the fibres spin outwards from the cup in the presence of the cold humid air currents and before they are dried or cured, they continue to be drawn out and become attenuated or stretched into fibres of smaller diameter. When they have achieved the desired diameter and before they have had a chance to develop into droplets or shot, they are dried and physically stabilized by heat, and transported to a collecting zone. Snowden '336, col. 1 :46-53 (italics added). Similarly, Furuya teaches that "[ w ]hen the droplets of thick solution thus shaken about radially collide against a high-pressure fluid such as, for example, hot compressed air, ... they are stretched and dried and, as a result, converted into filaments." Furuya, col. 2:39-46. Appellant has presented no reason to believe that these teachings are inapposite to a flat spinning disk as opposed to an angled or cup-shaped device. Accordingly, the Board accepts the Examiner's finding that "the spinning variable[ s] ... are presented as controllable variable[ s] that the skilled artisan would recognize as tunable in the process of Snowden '336 to result in the Furuya diameters." Answer 4. In a similar vein, Appellant seeks reversal of the rejection of claims 10 and 11. Appeal Br. 13-15. Claim 10 depends from claim 1 and adds the limitation that "the average fiber diameter is less than about 500 nm." Appeal Br. 19 (Claims App.). Claim 11 depends from claim 10 and further requires that "the average fiber diameter is less than about 100 nm." Id. " [A] prior art reference that discloses a range encompassing a somewhat narrower claimed range is sufficient to establish a prima facie case of obviousness." In re Peterson, 315 F.3d 1325, 1330, (Fed. Cir. 2003). Here, Furuya discloses a range of 100 to 10,000 nanometers. Furuya, col. 5 Appeal2015-001161 Application 12/335,816 2:11-13; 6:64---65. The low end of this range, 100 nanometers, falls within the range of diameter required by both claims 10 and 11. In re Geisler, 116 F.3d 1465, 1468-71 (Fed. Cir. 1997) ("about 10 nm [100 Angstroms]" held to fall within a range of 50 to 100 Angstroms). The Appellant contends, however, that Furuya does not explicitly teach making fibers with an average diameter of 100 nanometers. Appellant cites to the text of Furuya - " [ t ]he alumina fiber is made up of mono filaments ranging in diameter from 0.1to10Âµ, preponderantly from 2 to 4Âµ" - which does indicate an average value greater than claimed. Furuya, col. 2: 11-13. We note, however, that claim 7 of Furuya claims a process "wherein the filaments have a diameter of 0.1 to 10 microns." Furuya, col. 6:64---65. This would seem to encompass filaments having an average diameter 0 .1 microns ( 100 nanometers). Even were this not the case, it was known in the art to adjust process parameters so as to achieve "the desired diameter," Snowden '336, col. 2:27-28, and to make fibers with a diameter of 100 nanometers. Appellant presents no argument regarding the criticality of the claimed average diameters. Accordingly, the average diameter limitations of claims 10 and 11 would have been obvious to one of skill in the art and do not provide a basis for reversal. "Fibrous Streams ... in the Plane of the Disk" As an additional basis for appeal, Appellant asserts that neither Snowden nor Furuya, separately or in combination, teach that the spinning solution is distributed "as a film toward the forward surface discharge edge of the spin disk; and forming separate fibrous streams from the spinning solution in the plane of the disk." Appeal Br. 13. The Examiner responds that "[t]his process occurs in the combination as the solution is issued as a 6 Appeal2015-001161 Application 12/335,816 film along the surface in Snowden '336" and Snowden '783 "provides a flat surface and a discharge edge at the circumference and in the plane (FIG. 3)." Answer 3. The Examiner further asserts that "[t]he fact that flat surfaces are disposed within passages (FIG. 4 and 5) [of Snowden '783] is not precluded by the instant claim." Id. In its Reply brief, Appellant states that it "fail[ s] to understand from where the Examiner derives the assertion that the division of the polymer flow into separate streams occurs in the plane of a disk." Reply Br. 4. The Examiner describes Appellant's contention to be "that Snowden '783 divides the fibre-forming material into separate streams prior to issuing the streams from spinning device as opposed to the instant claims." Answer 3 (italics added). Alternatively, Appellant may be arguing that the polymer solution of Snowden '783 is separated into multiple channels above the plane of the spin disk. As a consequence, the combination would not form "separate fibrous streams ... in the plane of the disk." The Specification sheds light on the meaning of the term "fibrous streams": The rotation speed of the spin disk 10 propels the spinning solution along flat surface 11 and past the forward surface discharge edge 12 to form separate fibrous streams, which are thrown off the discharge edge by centrifugal force. Spec. 4. From the quoted portion of the Specification, it is apparent that "fibrous streams" are formed after the spinning solution is propelled past the discharge edge, not on the disk itself. Accordingly, the Examiner need not assert that the division of the polymer flow into separate channels occurs prior to separation from the disk. Rather, the Examiner need only show that the fibrous streams are formed in the plane of the disk. The Board accepts 7 Appeal2015-001161 Application 12/335,816 the Examiner's finding that Snowden '783 "provides a flat surface and a discharge edge at the circumference and in the plane," Answer 3, and that, as a consequence, the fibrous streams of Snowden '783 are formed in the plane of the spin disk. Claims 17-21 Appellant's final argument is that claims 17-21 depend from claim 1 and that the Examiner has failed to make out a prima facie case for the same reasons as stated in regard to claim 1. This argument fails for the reasons set forth above. CONCLUSION We affirm the rejections of claims 1-8 and 10-26 of Application 12/335,816 under 35 U.S.C. Â§ 103(a) as obvious. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a). AFFIRMED 8