&#xfeff;<html>
  <head>
    <META http-equiv="Content-Type" content="text/html; charset=utf-8">
<link rel="stylesheet" type="text/css" href="html_style_eog.css"/>
<script type="text/javascript">
          function printpage()
          {
          window.print()
          }
        </script>
<script type="text/javascript" src="https://components.uspto.gov/js/ais/40-patentsgazette.js"></script></head>
  <body bgcolor='#FFFFFF' onload='javascript: if ((navigator.appName.indexOf("Netscape")!=-1) && parent.leftFrame!=null) parent.leftFrame.location.reload();'>
    <basefont face="Times New Roman, Times New Roman, Times New Roman " size="2">
      <div style="margin-left: +10pt">
        <table width="90%" border="0" rules="none" align="center">
          <tr align="center">
            <td width="20%" colspan="1" rowspan="2" align="left" valign="top"><a href="https://ppubs.uspto.gov/pubwebapp/external.html?q=12222313.pn.&amp;db=USPAT" target="popup"><input type="button" class="button" value="   Full Text   "></a></td>
            <td class="table_data"><b>US 12,222,313 B2</b></td>
            <td width="20%" colspan="1" rowspan="2" align="right" valign="top">
              <form><input type="button" value="Print this page" onclick="printpage()"></form>
            </td>
          </tr>
          <tr align="center">
            <td colspan="1" class="table_data" style="text-transform: uppercase"><b>Sensor element of gas sensor</b></td>
          </tr>
          <tr align="center">
            <td colspan="3" class="table_data"><b> Takayuki Sekiya,  Nisshin (JP);  Yusuke Watanabe,  Nagoya (JP); and  Shiho Iwai,  Nagoya (JP)</b></td>
          </tr>
          <tr align="center">
            <td colspan="3" class="table_data"><b>Assigned to  NGK INSULATORS, LTD.,  Nagoya (JP)</b></td>
          </tr>
          <tr align="center">
            <td colspan="3" class="table_data"><b>Filed by  NGK Insulators, Ltd.,  Nagoya (JP)</b></td>
          </tr>
          <tr align="center">
            <td colspan="3" class="table_data"><b>Filed on Jan.  18, 2022, as Appl. No. 17/577,423.</b></td>
          </tr>
          <tr align="center">
            <td colspan="3" class="table_data"><b>Claims priority of application No. 2021-008721 (JP), filed on Jan.  22, 2021; and application No. 2022-002292 (JP), filed on Jan.  11, 2022.</b></td>
          </tr>
          <tr align="center">
            <td colspan="3" class="table_data"><b>Prior Publication US 2022/0236210 A1, Jul.  28, 2022</b></td>
          </tr>
          <tr align="center">
            <td colspan="3" class="table_data"><b>Int. Cl. </b><i><b>G01N 27/41</b></i> (2006.01); <i><b>G01N 27/406</b></i> (2006.01); <i><b>G01N 27/407</b></i> (2006.01); <i><b>G01N 27/409</b></i> (2006.01); <i><b>G01N 27/417</b></i> (2006.01); <i><b>G01N 33/00</b></i> (2006.01)</td>
          </tr>
        </table>
        <table width="90%" border="0" rules="none" align="center">
          <colgroup>
            <col width="75%">
            <col width="15%">
          </colgroup>
          <tr align="left">
            <td class="table_data" align="left"><b>CPC </b><i><b>G01N 27/409</b></i> (2013.01)&#xa0;[<i><b>G01N 27/406</b></i> (2013.01); <i><b>G01N 27/4071</b></i> (2013.01); <i><b>G01N 27/4075</b></i> (2013.01); <i><b>G01N 27/4077</b></i> (2013.01); <i><b>G01N 27/41</b></i> (2013.01); <i><b>G01N 27/417</b></i> (2013.01); <i>G01N 33/0037</i> (2013.01)]</td>
            <td class="table_data" align="right"><b>6 Claims</b></td>
          </tr>
        </table>
        <center><img src="US12222313-20250211-D00000.gif" alt="OG exemplary drawing"></center>
        <table width="90%" border="0" rules="none" align="center">
          <colgroup>
            <col width="90%">
          </colgroup>
          <tr>
            <td class="table_data" align="center">&#xa0;</td>
          </tr>
          <tr>
            <td valign="top" class="para_text">
              <div class="claim_text_root">1. A sensor element of a limiting current type gas sensor, the sensor element comprising:<div class="claim_text">a base part containing an oxygen-ion conductive solid electrolyte as a constituent material;</div>
                <div class="claim_text">at least one internal space into which a measurement gas is introduced; and</div>
                <div class="claim_text">at least one pump cell including an internal space electrode disposed to face the at least one internal space, an out-of-space pump electrode disposed at a location other than the at least one internal space, and a portion of the base part located between the internal space electrode and the out-of-space pump electrode, wherein</div>
                <div class="claim_text">the internal space electrode includes a noble metal, the oxygen-ion conductive solid electrolyte material, and pores, and includes:<div class="claim_text">an upper layer consisting of the noble metal, the oxygen-ion conductive solid electrolyte material, and the pores; and</div>
                  <div class="claim_text">a lower layer consisting of the noble metal and the oxygen-ion conductive solid electrolyte material,</div>
                </div>
                <div class="claim_text">in the internal space electrode, a boundary line length ratio being a ratio of a length of a boundary between a first region and a second region with respect to a length of a boundary between the base part and the internal space electrode is 1.1 or more, the first region being formed of the base part and the oxygen-ion conductive solid electrolyte material contiguous with the base part, the second region being occupied by the noble metal and the pores,</div>
                <div class="claim_text">a volume ratio of the oxygen-ion conductive solid electrolyte material in the upper layer is 20% to 40%, and</div>
                <div class="claim_text">a volume ratio of the oxygen-ion conductive solid electrolyte material in the lower layer is 50% to 60%.</div>
              </div>
            </td>
          </tr>
        </table>
      </div>
    
  </body>
</html>