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            <td width="20%" colspan="1" rowspan="2" align="left" valign="top"><a href="https://ppubs.uspto.gov/pubwebapp/external.html?q=12284818.pn.&amp;db=USPAT" target="popup"><input type="button" class="button" value="   Full Text   "></a></td>
            <td class="table_data"><b>US 12,284,818 B2</b></td>
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            <td colspan="1" class="table_data" style="text-transform: uppercase"><b>High-threshold-voltage normally-off high-electron-mobility transistor and preparation method therefor</b></td>
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            <td colspan="3" class="table_data"><b> Huolin Huang,  Dalian (CN); and  Zhonghao Sun,  Dalian (CN)</b></td>
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            <td colspan="3" class="table_data"><b>Assigned to  DALIAN UNIVERSITY OF TECHNOLOGY,  Dalian (CN)</b></td>
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            <td colspan="3" class="table_data"><b>Appl. No. 17/594,636</b></td>
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            <td colspan="3" class="table_data"><b>Filed by  DALIAN UNIVERSITY OF TECHNOLOGY,  Dalian (CN)</b></td>
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            <td colspan="3" class="table_data"><b>PCT Filed Apr.  28, 2020, PCT No. PCT/CN2020/087347<br>&#xa7; 371(c)(1), (2) Date Oct.  25, 2021, <br>PCT Pub. No.  WO2020/221222, PCT Pub. Date Nov.  5, 2020.</b></td>
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            <td colspan="3" class="table_data"><b>Claims priority of application No. 201910361958.6 (CN), filed on Apr.  30, 2019.</b></td>
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            <td colspan="3" class="table_data"><b>Prior Publication US 2022/0209000 A1, Jun.  30, 2022</b></td>
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            <td colspan="3" class="table_data"><b>Int. Cl. </b><i><b>H10D 30/47</b></i> (2025.01); <i><b>H01L 21/02</b></i> (2006.01); <i><b>H01L 21/285</b></i> (2006.01); <i><b>H01L 21/306</b></i> (2006.01); <i><b>H01L 21/76</b></i> (2006.01); <i><b>H01L 21/765</b></i> (2006.01); <i><b>H10D 30/01</b></i> (2025.01); <i><b>H10D 62/824</b></i> (2025.01); <i><b>H10D 62/85</b></i> (2025.01); <i><b>H10D 64/00</b></i> (2025.01)</td>
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            <td class="table_data" align="left"><b>CPC </b><i><b>H10D 30/475</b></i> (2025.01)&#xa0;[<i><b>H01L 21/0254</b></i> (2013.01); <i><b>H01L 21/0262</b></i> (2013.01); <i><b>H01L 21/28575</b></i> (2013.01); <i><b>H01L 21/30621</b></i> (2013.01); <i><b>H01L 21/7605</b></i> (2013.01); <i><b>H01L 21/765</b></i> (2013.01); <i><b>H10D 30/015</b></i> (2025.01); <i><b>H10D 62/824</b></i> (2025.01); <i><b>H10D 62/8503</b></i> (2025.01); <i><b>H10D 64/111</b></i> (2025.01)]</td>
            <td class="table_data" align="right"><b>4 Claims</b></td>
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            <td class="table_data" align="center">&#xa0;</td>
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              <div class="claim_text_root">1. A high-threshold-voltage normally-off high-electron-mobility transistor, comprising:<div class="claim_text">a substrate, a nucleation layer, an epitaxial layer, a barrier layer, a passivation layer, a gate cap layer, a composite gate dielectric insertion layer, a gate, a source, and a drain, wherein the nucleation layer and the epitaxial layer are sequentially grown on the substrate,</div>
                <div class="claim_text">the barrier layer, the source, and the drain are located above the epitaxial layer,</div>
                <div class="claim_text">the barrier layer and the epitaxial layer comprise a heterojunction structure, and a contact interface therebetween is induced by polarization charges to generate two-dimensional electron gas, the passivation layer is above the barrier layer,</div>
                <div class="claim_text">the gate cap layer is above a gate region of the barrier layer, the composite gate dielectric insertion layer is directly above the gate cap layer,</div>
                <div class="claim_text">the gate is located above the composite gate dielectric insertion layer, the gate is in contact with the passivation layer, and the gate covers and physically contacts (i) an entirety of a top surface and side walls of the composite gate dielectric insertion layer and (ii) a portion of side walls of the gate cap layer; and</div>
                <div class="claim_text">a field plate extends from the gate towards the drain on the passivation layer.</div>
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