Ex Parte CornfeldDownload PDFPatent Trial and Appeal BoardApr 15, 201512544001 (P.T.A.B. Apr. 15, 2015) 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. 12/544,001 08/19/2009 Arthur Cornfeld 9015/6009-082 8482 128940 7590 04/15/2015 SolAero Technologies Corp. 10420 Research Road SE Albuquerque, NM 87123 EXAMINER MCCONNELL, MARLA D ART UNIT PAPER NUMBER 1758 MAIL DATE DELIVERY MODE 04/15/2015 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 ARTHUR CORNFELD __________ Appeal 2013-006249 Application 12/544,001 Technology Center 1700 ____________ Before BRADLEY R. GARRIS, MICHAEL P. COLAIANNI, and SHEILA F. McSHANE, Administrative Patent Judges. COLAIANNI, Administrative Patent Judge. DECISION ON APPEAL Appellant appeals under 35 U.S.C. § 134 from the final rejection of claims 1–3, 7–17, and 19–21. We have jurisdiction over the appeal pursuant to 35 U.S.C. § 6(b). We AFFIRM. Appellant’s invention is directed to multijunction solar cells based on III-V semiconductor compounds including a metamorphic layer (Spec. ¶ 25). Claim 1 is illustrative: 1. A multijunction semiconductor solar cell comprising: an upper first solar subcell having a first band gap; Appeal 2013-006249 Application 12/544,001 a middle second solar subcell adjacent to said first solar subcell and having a second band gap smaller than said first band gap, and having a base layer and an emitter layer; a graded interlayer adjacent to said second solar subcell, said graded interlayer having a third band gap greater than said second band gap; a lower third solar subcell adjacent to said graded interlayer, said lower third solar subcell composed of an InGaAs base layer and an adjacent InGaP emitter layer that is lattice matched to the adjacent base layer, said lower third subcell having a fourth band gap smaller than said second band gap such that the third subcell is lattice mismatched with respect to the second subcell; and a metal electrode layer comprising molybdenum deposited on the lower subcell and having a coefficient of thermal expansion that has a value within 50% of the coefficient of thermal expansion of the directly adjacent semiconductor material. Appellant appeals the following rejections: 1. Claims 1–3, 8, 9, 11–14, 16, and 17 are rejected under 35 U.S.C. § 103(a) as being unpatentable over Wanlass (US 2006/0144435, published Jul. 6, 2006 ) in view of Jeng (The reflectivity of Mo/Ag/Au ohmic contacts on p-type GaN for flip-chip light-emitting diode (FCLED) applications, APPLIED SURFACE SCIENCE 254, 4479–4482 (2008)) as evidenced by Kagawa (US 4,906,583, issued Mar. 6, 1990) and the CRC Handbook of Chemistry and Physics, 91st Ed. (c) 2010– 2011 (hereinafter CRC). 2. Claims 1–3, 7, 9, 11, 13–17, 19, and 21 are rejected under 35 U.S.C. § 103(a) as being unpatentable over Cornfeld (US 2007/0277873 A1, published Dec. 6, 2007) in view of Wanlass, Miller (V/AI/V/Ag Ohmic contacts to n-AIGaN/GaN heterostructures with a thin GaN cap, 2 Appeal 2013-006249 Application 12/544,001 APPLIED PHYSICS LETTERS 91, 012103 (2007) ) and Masuda (High Performance InP/InGaAs HBTs for 40-Gb/s Optical Transmission ICs, IEICE TRANS. ELECTRON., Vol. E82–C, No.3 (1999)) as evidenced by Kagawa and the CRC. 3. Claim 10 is rejected under 35 U.S.C. § 103(a) as being unpatentable over Cornfeld in view of Wanlass, Miller, and Masuda as evidenced by Kagawa and the CRC and further in view of Barnett (US 4,677,250, issued Jun. 30, 1987) as evidenced by Takeda (US 5,022,455, issued Jun. 11, 1991). 4. Claims 15 and 20 are rejected under 35 U.S.C. § 103(a) as being unpatentable over Wanlass in view of Jeng as evidenced by Kagawa and the CRC and further view of Cornfeld. In the Appeal Brief, Appellant’s arguments focus on claim 1 only (Br. 4–14). Appellant raises new arguments against claims 10, 15, 19, and 20 for the first time in the Reply Brief (Reply Br. 1–7). Appellant additionally argues and provides evidence for the first time against the Examiner’s finding that the silver in Jeng’s molybdenum layer provides a high reflectance to the metal layer (Reply Br. 7–9). These arguments were not made in response to issues raised by the Examiner for the first time in the Examiner’s Answer. Rather, the Final Action mailed August 1, 2012, includes the same rejections copied in the Examiner’s Answer. The Examiner in the “Response to Arguments” section of the Answer merely responds to Appellant’s arguments regarding the rejection of claim 1 made in the principal Brief (Ans. 33–51). Therefore, we shall not consider Appellant’s improperly 3 Appeal 2013-006249 Application 12/544,001 raised new arguments and evidence included in the Reply Brief. See 37 C.F.R. 41.41(b)(1)(2) (2012); cf. Ex parte Borden, 93 USPQ2d 1473, 1474 (BPAI 2010) (informative). The rejection of independent claims 19 and 20 and dependent claims 2, 3, 7-17, and 21 will stand or fall with our analysis of the rejection of claim 1. FINDINGS OF FACT AND ANALYSES The Examiner’s findings and conclusions regarding Wanlass, Cornfeld, Jeng, Masuda and Miller are located on pages 3–7 and 10–14 of the Answer. Appellant argues that none of the prior art relied upon by the Examiner teaches or suggests a solution to the potential problem in manufacturing solar cells identified by the Appellant (Br. 5, 7, 11). Appellant contends that none of the prior art teaches or suggests the importance of matching the coefficient of thermal expansion for associated layers to that of the semiconductor body, while still maintaining appropriate electrical conductivity and structural properties of the layers (Br. 5, 6, 11). Appellant argues that the Examiner has not shown that there are a finite number of predictable solutions for the potential problem in manufacturing solar cells identified by the present inventor (Br. 7, 13). Contrary to Appellant’s argument, the Examiner has provided a reason for the substitution of Jeng’s molybdenum metal layer for Wanlass’ gold layer: to provide better reflectivity to the semiconductor (Ans. 6). The Examiner finds and Appellant does not contest that Jeng and Wanlass each teaches that a metal layer on the backside of the semiconductor with greater reflectance is desirable (Ans. 6, 36–37). 4 Appeal 2013-006249 Application 12/544,001 Similarly, the Examiner’s reason for modifying Cornfeld as modified by Wanlass to have the molybdenum containing metal layer is to provide a smooth (i.e., low surface roughness) electrode that prevents intermixing of the semiconductors and the metals (Ans. 13). The Examiner bases this rationale on the teachings of Masuda and Miller. Id. The Examiner’s reason for modifying Wanlass and/or Cornfeld as modified by Wanlass with the teachings of Jeng or Masuda and Miller, respectively, need not be the same as Appellant’s reason for making the modification. KSR Int’l Co. v. Teleflex Corp., 550 US 398, 420 (2007) (“The question is not whether the combination was obvious to the patentee but whether the combination was obvious to a person with ordinary skill in the art. Under the correct analysis, any need or problem known in the field of endeavor at the time of invention and addressed by the patent can provide a reason for combining the elements in the manner claimed.”). Appellant’s argument regarding the problem addressed by Appellant is not persuasive. Contrary to Appellant’s argument regarding whether the applied prior art shows a finite number of predictable solutions for the potential problems in manufacturing solar cells, the Examiner’s rejection is based upon the teachings of the applied references to make the substitution to address reflectivity or surface roughness/intermixing of the semiconductors. The Examiner’s rejection is also based upon the substitution of molybdenum as a known functional equivalent metal (Ans. 14). Accordingly, the applied prior art would have suggested the modification of Wanlass and/or Cornfeld as found by the Examiner. Appellant’s argument does not address the Examiner’s findings and conclusions in the stated rejection. 5 Appeal 2013-006249 Application 12/544,001 Appellant argues that Jeng is directed to a flip-chip light emitting diode (LED) that contains no teaching or suggestion of solar cells (Br. 7). Appellant contends that Jeng’s LED consumes only a small area on a semiconductor chip and it has many fewer layers than a solar cell (Br. 7). Appellant argues that the solar cell requires a much larger horizontal area to capture light and has many more layers than are present in a LED. Id. Appellant argues that because of the solar cell’s size, manufacturing defects may be a major issue for a solar cell, which would not be the case for a much smaller LED (Br. 8). Appellant argues that Jeng’s molybdenum electrode is merely to provide electrical contact for the LED whereas the claimed metal layer covers the entire surface of the solar cell and may be subjected to higher temperatures during manufacture. Id. Appellant contends that one of ordinary skill in the art would not have looked to a LED electrical contact layer as disclosed by Jeng to modify Wanlass and/or Cornfeld (Br. 8–9). Appellant’s arguments are directed to limitations not appearing the claims. The Examiner properly finds that the Appellant’s arguments regarding the size of a solar cell and the manufacturing defects that may arise are directed to limitations not in the claims (Ans. 41). Claim 1 does not recite a particular size of the solar cell or the particular number of layers that comprise the solar cell. Appellant has not provided any evidence to substantiate the mere attorney argument that a LED and a solar cell differ to the argued extent. In re Schulze, 346 F.2d 600, 602 (CCPA 1965) (“Argument in the brief does not take the place of evidence in the record”). Moreover, the Examiner makes specific findings regarding how LEDs and 6 Appeal 2013-006249 Application 12/544,001 solar cells are similar, which Appellant does not respond to or otherwise show to be erroneous (Ans. 39; Reply Br. generally). Regarding the rejections over Cornfeld in view of Wanlass, Masuda and Miller, Appellant contends that Miller is directed to “high electron mobility transistors (HEMTs)” and Masuda is directed to “heterojunction bipolar transistors (HBTs)” (Br. 13). Appellant argues that neither Miller nor Masuda is directed to solar cells and neither piece of prior art would have taught problems concerning solar cells. Id. The Examiner agrees that Miller and Masuda are not directed to solar cells, but the Examiner finds that Miller and Masuda are directed to semiconductor heterojunctions that are made of the same materials as the photovoltaic cells of Wanlass and Cornfeld (Ans. 49). The Examiner finds that Masuda’s and Miller’s device and Wanlass’ and Cornfeld’s device are comprised of heterojunctions and are therefore similar devices (i.e., all are III-V heterojunctions between two electrodes that generate an electrical output in response to stimuli) (Ans. 49). The Examiner finds that Masuda and Miller are in the same field of endeavor as Wanlass and Cornfeld. The Examiner further finds that Wanlass, Cornfeld, Miller and Masuda all provide layered contacts for the semiconductor devices, which transport charge and thus are directed to solving the same problem as Appellant (Ans. 49). The Examiner finds that the layered contact structure solves the same problem and an ordinary artisan would have looked to layered contacts of similar devices (III-V semiconductors), which solve the same problem (charge transport) in order to modify III-V semiconductor solar cells or other similar devices. Id. Appellant does not respond to or 7 Appeal 2013-006249 Application 12/544,001 otherwise show error with the Examiner’s finding and thorough analysis that Miller and Masuda are analogous art. Appellant further argues that the Examiner has improperly focused on the reflective property of the metal layer instead of addressing other various structural properties of the metal layer in the rejection over Wanlass in view of Jeng (Br. 9). Appellant contends that there are many high reflective metal contact layers that would not have a coefficient of thermal expansion substantially similar to that of the adjacent semiconductor. Id. Appellant contends that the Examiner has not provided a sufficient rationale to motivate one of skill in the art to select Jeng’s particular metal contact layer. Id. Appellant argues that the Examiner arbitrarily selected low surface roughness and prevention of intermixing of the semiconductors and metals while ignoring other important properties of the metal layer, such as conductivity, structural properties, chemical properties, and thermal properties in the rejection of Cornfeld in view of Wanlass, Masuda and Miller (Br. 13). Appellant contends that there are many metal contact layers that would have low surface roughness and /or prevent intermixing, but that would not have a coefficient of thermal expansion substantially similar to the adjacent semiconductor (Br. 14). As noted above, the Examiner’s reason for modifying Wanlass to have Jeng’s molybdenum-containing layer and Cornfeld as modified by Wanlass to have Masuda’s or Miller’s molybdenum-container layer need not be the same as Appellant’s reason. As found by the Examiner, Wanlass and Jeng both teach using the metal layers for their reflective property. The Examiner further finds that Cornfeld discloses a multilayered electrode, 8 Appeal 2013-006249 Application 12/544,001 which both Miller and Masuda recognize as having problems with intermixing and increased surface roughness without a molybdenum layer (Ans. 46). The Examiner finds that Masuda discloses adding the molybdenum layer decreases contact resistivity over electrodes that do not contain the layer (Ans. 46). Accordingly, we agree with the Examiner that there would have been reason for the ordinarily skilled artisan to make the proposed modification. Regarding the claimed coefficient of thermal expansion, the Examiner makes specific findings that once Jeng’s molybdenum-containing layer is substituted for Wanlass’ gold layer or Miller’s and Masuda’s molybdenum- containing layer is substituted for Cornfeld’s metal layer as modified by Wanlass, the resulting structure would have had inherently a coefficient of thermal expansion that satisfies the claimed thermal expansion coefficient range (i.e., a thermal expansion coefficient value within 50% of the coefficient of thermal expansion of the directly adjacent semiconductor material) (Ans. 6–7, 13–14, 43, 50–51). Specifically, the Examiner finds that Jeng’s, Miller’s and Masuda’s molybdenum-containing layers have thermal expansion coefficients that are within 50% of the thermal expansion coefficient of the GaInAs semiconductor that is adjacent to the metal layer (Ans. 6–7, 14). Appellant does not specifically contest or otherwise show error with this finding of the Examiner. On this record, we affirm all the Examiner’s § 103 rejections. DECISION The Examiner’s decision is affirmed. 9 Appeal 2013-006249 Application 12/544,001 No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). ORDER AFFIRMED kmm 10 Copy with citationCopy as parenthetical citation
