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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=12243928.pn.&amp;db=USPAT" target="popup"><input type="button" class="button" value="   Full Text   "></a></td>
            <td class="table_data"><b>US 12,243,928 B1</b></td>
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            <td colspan="1" class="table_data" style="text-transform: uppercase"><b>P-GaN high electron mobility transistor (HEMT) with MOS2-based 2D barrier</b></td>
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            <td colspan="3" class="table_data"><b> Ghada A. Khouqeer,  Riyadh (SA);  Arihant Raj Siddarth,  Riyadh (SA);  Gaurav Jayaswal,  Riyadh (SA);  Rahul Sharma,  Riyadh (SA);  Yogita Sharma,  Riyadh (SA);  Priya Kaushal,  Riyadh (SA);  Gargi Khanna,  Riyadh (SA);  Tahani A. Alrebdi,  Riyadh (SA); and  Abdullah N. Alodhayb,  Riyadh (SA)</b></td>
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            <td colspan="3" class="table_data"><b>Assigned to  IMAM MOHAMMAD IBN SAUD ISLAMIC UNIVERSITY,  Riyadh (SA)</b></td>
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            <td colspan="3" class="table_data"><b>Filed by  IMAM MOHAMMAD IBN SAUD ISLAMIC UNIVERSITY,  Riyadh (SA)</b></td>
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            <td colspan="3" class="table_data"><b>Filed on Oct.  15, 2024, as Appl. No. 18/916,467.</b></td>
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            <td colspan="3" class="table_data"><b>Int. Cl. </b><i><b>H01L 29/778</b></i> (2006.01); <i><b>H01L 21/285</b></i> (2006.01); <i><b>H01L 29/20</b></i> (2006.01); <i><b>H01L 29/47</b></i> (2006.01); <i><b>H01L 29/66</b></i> (2006.01)</td>
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            <td class="table_data" align="left"><b>CPC </b><i><b>H01L 29/475</b></i> (2013.01)&#xa0;[<i><b>H01L 21/28581</b></i> (2013.01); <i><b>H01L 29/2003</b></i> (2013.01); <i><b>H01L 29/66462</b></i> (2013.01); <i><b>H01L 29/7786</b></i> (2013.01)]</td>
            <td class="table_data" align="right"><b>20 Claims</b></td>
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        <center><img src="US12243928-20250304-D00000.gif" alt="OG exemplary drawing"></center>
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            <td class="table_data" align="center">&#xa0;</td>
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              <div class="claim_text_root">1. A bandgap tuneable p-GaN high electron mobility transistor (HEMT), comprising:<div class="claim_text">a silicon carbide (SiC) substrate;</div>
                <div class="claim_text">an indium nitride (InN) nucleation layer deposited on the SiC substrate, wherein the InN nucleation layer has a thickness of about 5 nanometers;</div>
                <div class="claim_text">an aluminum nitride (AlN) nucleation layer grown on the InN nucleation layer, wherein the AlN nucleation layer has a thickness of about 5 nanometers;</div>
                <div class="claim_text">a first aluminum gallium nitride (AlGaN) buffer layer located on the AlN nucleation layer;</div>
                <div class="claim_text">a gallium nitride (GaN) channel layer located on the first AlGaN buffer layer;</div>
                <div class="claim_text">an aluminum source contact located over a first end of the GaN channel layer;</div>
                <div class="claim_text">an aluminum drain contact located over a second end of the GaN channel layer;</div>
                <div class="claim_text">a two dimensional molybdenum disulfide (MoS<sub>2</sub>) layer located over the GaN channel layer between the aluminum source contact and the aluminum drain contact, wherein the two dimensional MoS<sub>2 </sub>layer has a thickness of about 2 nanometers;</div>
                <div class="claim_text">a second aluminum gallium nitride (AlGaN) buffer layer located over the two dimensional MoS<sub>2 </sub>layer between the aluminum source contact and the aluminum drain contact;</div>
                <div class="claim_text">a p-type gallium nitride cap layer located on the second AlGaN buffer layer at a distance of about 1 micron from the aluminum source contact and about 6 microns from the aluminum drain contact; and</div>
                <div class="claim_text">a platinum gate contact located on the p-type gallium nitride cap layer.</div>
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