Ex Parte Nallan et alDownload PDFBoard of Patent Appeals and InterferencesApr 12, 201010338250 (B.P.A.I. Apr. 12, 2010) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE BOARD OF PATENT APPEALS AND INTERFERENCES ____________ Ex parte PADMAPANI C. NALLAN, GUANGXIANG JIN, and AJAY KUMAR ____________ Appeal 2009-015431 Application 10/338,250 Technology Center 1700 ____________ Decided: April 12, 2010 ____________ Before EDWARD C. KIMLIN, PETER F. KRATZ, and MARK NAGUMO, Administrative Patent Judges. KIMLIN, Administrative Patent Judge. DECISION ON APPEAL This is an appeal from the final rejection of claims 1-5 and 22-28. We have jurisdiction under 35 U.S.C. § 6(b). Claims 6 has been indicated as allowable and claim 29 has been withdrawn from consideration. Claim 1 is illustrative: Appeal 2009-015431 Application 10/338,250 1. A method of etching a dielectric layer having a dielectric constant that is greater than 4.0 on a semiconductor substrate, comprising: providing a substrate having the dielectric layer to be selectively etched disposed thereon; and selectively plasma etching the dielectric layer by applying one or more processing cycles to the substrate, wherein each cycle comprises a period of etching the dielectric layer without substrate bias and a period of etching the dielectric layer with substrate bias. The Examiner relies upon the following references as evidence of obviousness (Ans. 2-3): O’Neill 5,683,538 Nov. 04, 1997 Ji 2004/0014327 A1 Jan. 22, 2004 Arghavani 2004/0033677 A1 Feb. 19, 2004 Appellants’ claimed invention is directed to a method of etching a dielectric layer having a dielectric constant greater than 4.0. The method entails applying one or more processing cycles to the substrate wherein each cycle comprises a period of etching the dielectric layer without substrate bias, and a period of etching the dielectric layer with substrate bias. Appealed claims 1-3 and 22-28 stand rejected under 35 U.S.C. § 103(a) as being unpatentable over O’Neill in view of Arghavani. Appealed claims 4-5 stand rejected under 35 U.S.C. § 103(a) as being unpatentable over the stated combination of references further in view of Ji. Appellants do not present separate arguments for the two groups of claims separately rejected by the Examiner. Accordingly, these groups of claims stand or fall together. We have thoroughly reviewed each of Appellants’ arguments for patentability. However, we are in complete agreement with the Examiner 2 Appeal 2009-015431 Application 10/338,250 that the claimed subject matter would have been obvious to one of ordinary skill in the art within the meaning of § 103 in view of the applied prior art. Accordingly, we will sustain the Examiner’s rejections for essentially those reasons expressed in the Answer, and we add the following primarily for emphasis. There is no dispute that O’Neill, like Appellants, discloses a method of etching a dielectric layer on a semiconductor substrate that comprises selectively plasma etching the dielectric layer by applying one or more processing cycles to the substrate, wherein each cycle comprises a period of etching the dielectric layer without substrate bias and a period of etching the dielectric layer with substrate bias. As recognized by the Examiner, O’Neill does not specify that the dielectric layer is one whose dielectric constant is greater than 4.0, as presently claimed. However, Arghavani provides clear evidence that it was known in the art at the time of filing the present application that dielectric materials having a high dielectric constant have an advantage over low dielectric constant materials in transistor devices. In discussing the state of the prior art, Arghavani discloses: Consequently, a more conventional practice has been to replace the low-k dielectric with a high-k dielectric. A high- k dielectric can provide dielectric qualities at a lower thickness than low-k dielectrics. ([0003]). Arghavani also teaches that “[t]he term ‘high-k’ is a relative term that refers to a material with a dielectric constant(k) substantially higher than that of silicon dioxide (SiO2), or in other words substantially higher k = 3.9” ([0016]). Consequently, based on the collective teachings of O’Neill and Arghavani, we are in complete agreement with the Examiner that it would have been obvious for one of ordinary skill in the art to select the presently 3 Appeal 2009-015431 Application 10/338,250 claimed high dielectric constant material in the process of O’Neill in order to achieve greater dielectric qualities at a lower thickness. The principal argument advanced by Appellants is that O’Neill and Arghavani disclose different etchant materials for removing the dielectric layer and, therefore, it would not have been obvious to use the etchant composition of O’Neill, which comprises two etchants, on the high dielectric material of Arghavani. Appellants’ argument, however, is grounded on the erroneous premise that O’Neill teaches that the dielectric material used in the process is limited to the low dielectric material exemplified, and that Arghavani teaches that the etchant material used to remove the high dielectric material is limited to HF which is taught as exemplary. The focus of O’Neill’s invention is that different radicals, such as CF, CF2 and CF3 have different lifetimes in a plasma environment such that in situ and real time determination of etch selectivity can be monitored and controlled. O’Neill provides a general teaching that the etchant composition comprising different compounds can be used to selectively etch different materials in making a semiconductor device, with silicon dioxide and polysilicon being only examples of such different materials. Appellants have offered no reason for why one of ordinary skill in the art would not have reasonably expected the high dielectric materials of Arghavani to be suitable for the selective etching method of O’Neill. Similarly, Arghavani provides no teaching that a suitable etchant for the high dielectric material is limited to the particular HF exemplified. In relevant part, Arghavani discloses: The etch chemistry should be such that the oxygen- permeable dielectric layer 304 is etched but neither the substrate 300, the gate electrode 318, nor the isolation 4 Appeal 2009-015431 Application 10/338,250 regions 302 are etched. . . . . Because of the highly diffusible nature of oxygen-permeable gate dielectric 319, the etching of the oxygen-permeable dielectric layer 304 should be careful not to introduce oxygen, whether directly as part of the process since the oxygen-permeable gate dielectric 319 will be exposed and the oxygen would diffuse laterally into the oxygen-permeable gate dielectric 319. ([0022]). Hence, we find that it would have been a matter of obviousness for one of ordinary skill in the art to resort to routine optimization to determine the particular etchant compositions that are suitable for etching a high dielectric material. In the present case, the appealed claims do not define any particular etchant material for etching the dielectric layer having a high dielectric constant. Accordingly, we concur with the Examiner that it would have been obvious for one of ordinary skill in the art to employ routine experimentation to reveal the most effective etchant compositions for high dielectric materials in the selective etchant process of O’Neill. In our view, the appealed claims encompass a selective etching process that is clearly suggested by O’Neill in light of the state of the art at the time of filing the present application. Appellants have not presented a separate, substantive argument against the rejection of claims 4 and 5, but rely upon the asserted deficiency of the combined teachings of O’Neill and Arghavani. As a final point, we note that Appellants base no argument upon objective evidence of non-obviousness, such as unexpected results. In conclusion, based on the foregoing and the reasons well stated by the Examiner, the Examiner’s decision rejecting the appealed claims is affirmed. 5 Appeal 2009-015431 Application 10/338,250 No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a) (2008). AFFIRMED ssl MOSER IP LAW GROUP / APPLIED MATERIALS, INC. 1030 BROAD STREET 2ND FLOOR SHREWSBURY, NJ 07702 6 Copy with citationCopy as parenthetical citation
