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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Press+Releases/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Press+Releases/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Press+Releases/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Press+Releases/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Press+Releases/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Business+Wire/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Business+Wire/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Business+Wire/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Business+Wire/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>IMEC Achieves a World-record GaN Breakdown Voltage Exceeding 650 V on Shin-Etsu Chemical’s 300-mm QST™ Substrate</title>
   <link>http://www.streetinsider.com/Business+Wire/IMEC+Achieves+a+World-record+GaN+Breakdown+Voltage+Exceeding+650+V+on+Shin-Etsu+Chemical%E2%80%99s+300-mm+QST%E2%84%A2+Substrate/25600465.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
The QSTTM substrate*1, a 300-mm GaN growth substrate that Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed, has been adopted for the 300-mm GaN power device development program at IMEC*2, where sample evaluation is in progress. In the evaluation, the 5 µm-thick HEMT*3 device using a QSTTM substrate achieved a record-breaking voltage resistance exceeding 650 V for a 300mm substrate.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical, licensed by QROMIS, Inc. (Head office: CA, U.S.A, CEO: Cem Basceri, hereafter &quot;QROMIS&quot;), manufactures 150-mm and 200-mm QST™ substrates, as well as GaN-on-QST™ epitaxial substrates of various diameters.</description>
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   <title>Shin-Etsu Chemical Develops New Silicone Products for Personal Care Use That Will Improve Texture and Functionality in Cosmetics</title>
   <link>http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+Develops+New+Silicone+Products+for+Personal+Care+Use+That+Will+Improve+Texture+and+Functionality+in+Cosmetics/24775264.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) has developed new silicone products for personal care applications as part of its silicon chemistry-driven solutions (Shin-Etsu Silicones Solution-EngineeringTM).
&lt;br /&gt;In the personal care industry, research and development activities are being carried out on various themes such as addressing diverse consumer demand and environmental issues and improving production efficiency. In response to these needs, Shin-Etsu Chemical has added new products to its lineup.
&lt;/p&gt;&lt;p&gt;
[New Products]
&lt;/p&gt;&lt;p&gt;
KF-6070W and KF-6080W are silicones in which some of the methyl groups in the molecular structure of dimethyl silicone oil</description>
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   <pubDate>Mon, 12 May 2025 02:30:00 -0500</pubDate>
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   <title>Shin-Etsu Chemical Develops New Silicone Products for Personal Care Use That Will Improve Texture and Functionality in Cosmetics</title>
   <link>http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+Develops+New+Silicone+Products+for+Personal+Care+Use+That+Will+Improve+Texture+and+Functionality+in+Cosmetics/24775264.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) has developed new silicone products for personal care applications as part of its silicon chemistry-driven solutions (Shin-Etsu Silicones Solution-EngineeringTM).
&lt;br /&gt;In the personal care industry, research and development activities are being carried out on various themes such as addressing diverse consumer demand and environmental issues and improving production efficiency. In response to these needs, Shin-Etsu Chemical has added new products to its lineup.
&lt;/p&gt;&lt;p&gt;
[New Products]
&lt;/p&gt;&lt;p&gt;
KF-6070W and KF-6080W are silicones in which some of the methyl groups in the molecular structure of dimethyl silicone oil</description>
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   <pubDate>Mon, 12 May 2025 02:30:00 -0500</pubDate>
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   <title>Shin-Etsu Chemical Develops New Silicone Products for Personal Care Use That Will Improve Texture and Functionality in Cosmetics</title>
   <link>http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+Develops+New+Silicone+Products+for+Personal+Care+Use+That+Will+Improve+Texture+and+Functionality+in+Cosmetics/24775264.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) has developed new silicone products for personal care applications as part of its silicon chemistry-driven solutions (Shin-Etsu Silicones Solution-EngineeringTM).
&lt;br /&gt;In the personal care industry, research and development activities are being carried out on various themes such as addressing diverse consumer demand and environmental issues and improving production efficiency. In response to these needs, Shin-Etsu Chemical has added new products to its lineup.
&lt;/p&gt;&lt;p&gt;
[New Products]
&lt;/p&gt;&lt;p&gt;
KF-6070W and KF-6080W are silicones in which some of the methyl groups in the molecular structure of dimethyl silicone oil</description>
   <guid isPermaLink="true">http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+Develops+New+Silicone+Products+for+Personal+Care+Use+That+Will+Improve+Texture+and+Functionality+in+Cosmetics/24775264.html</guid>
   <pubDate>Mon, 12 May 2025 02:30:00 -0500</pubDate>
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   	  </item>
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   <title>Shin-Etsu Chemical Develops New Silicone Products for Personal Care Use That Will Improve Texture and Functionality in Cosmetics</title>
   <link>http://www.streetinsider.com/Business+Wire/Shin-Etsu+Chemical+Develops+New+Silicone+Products+for+Personal+Care+Use+That+Will+Improve+Texture+and+Functionality+in+Cosmetics/24775264.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) has developed new silicone products for personal care applications as part of its silicon chemistry-driven solutions (Shin-Etsu Silicones Solution-EngineeringTM).
&lt;br /&gt;In the personal care industry, research and development activities are being carried out on various themes such as addressing diverse consumer demand and environmental issues and improving production efficiency. In response to these needs, Shin-Etsu Chemical has added new products to its lineup.
&lt;/p&gt;&lt;p&gt;
[New Products]
&lt;/p&gt;&lt;p&gt;
KF-6070W and KF-6080W are silicones in which some of the methyl groups in the molecular structure of dimethyl silicone oil</description>
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   <pubDate>Mon, 12 May 2025 02:30:00 -0500</pubDate>
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   	  </item>
  <item>
   <title>Shin-Etsu Chemical Develops New Silicone Products for Personal Care Use That Will Improve Texture and Functionality in Cosmetics</title>
   <link>http://www.streetinsider.com/Business+Wire/Shin-Etsu+Chemical+Develops+New+Silicone+Products+for+Personal+Care+Use+That+Will+Improve+Texture+and+Functionality+in+Cosmetics/24775264.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) has developed new silicone products for personal care applications as part of its silicon chemistry-driven solutions (Shin-Etsu Silicones Solution-EngineeringTM).
&lt;br /&gt;In the personal care industry, research and development activities are being carried out on various themes such as addressing diverse consumer demand and environmental issues and improving production efficiency. In response to these needs, Shin-Etsu Chemical has added new products to its lineup.
&lt;/p&gt;&lt;p&gt;
[New Products]
&lt;/p&gt;&lt;p&gt;
KF-6070W and KF-6080W are silicones in which some of the methyl groups in the molecular structure of dimethyl silicone oil</description>
   <guid isPermaLink="true">http://www.streetinsider.com/Business+Wire/Shin-Etsu+Chemical+Develops+New+Silicone+Products+for+Personal+Care+Use+That+Will+Improve+Texture+and+Functionality+in+Cosmetics/24775264.html</guid>
   <pubDate>Mon, 12 May 2025 02:30:00 -0500</pubDate>
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   	  </item>
  <item>
   <title>Shin-Etsu Chemical Develops New Silicone Products for Personal Care Use That Will Improve Texture and Functionality in Cosmetics</title>
   <link>http://www.streetinsider.com/Business+Wire/Shin-Etsu+Chemical+Develops+New+Silicone+Products+for+Personal+Care+Use+That+Will+Improve+Texture+and+Functionality+in+Cosmetics/24775264.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) has developed new silicone products for personal care applications as part of its silicon chemistry-driven solutions (Shin-Etsu Silicones Solution-EngineeringTM).
&lt;br /&gt;In the personal care industry, research and development activities are being carried out on various themes such as addressing diverse consumer demand and environmental issues and improving production efficiency. In response to these needs, Shin-Etsu Chemical has added new products to its lineup.
&lt;/p&gt;&lt;p&gt;
[New Products]
&lt;/p&gt;&lt;p&gt;
KF-6070W and KF-6080W are silicones in which some of the methyl groups in the molecular structure of dimethyl silicone oil</description>
   <guid isPermaLink="true">http://www.streetinsider.com/Business+Wire/Shin-Etsu+Chemical+Develops+New+Silicone+Products+for+Personal+Care+Use+That+Will+Improve+Texture+and+Functionality+in+Cosmetics/24775264.html</guid>
   <pubDate>Mon, 12 May 2025 02:30:00 -0500</pubDate>
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   	   	<category domain="http://rss.financialcontent.com/stocksymbol">SHECY</category>
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  <item>
   <title>Shin-Etsu Chemical Develops Industry-First Heat-Shrinkable Silicone Rubber Tubing for Busbar Covering</title>
   <link>http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+Develops+Industry-First+Heat-Shrinkable+Silicone+Rubber+Tubing+for+Busbar+Covering/23710140.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (TOKYO: 4063) (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed the ST-OR Type heat-shrinkable silicone rubber tubing for busbar covering for the first time in the industry*.
&lt;/p&gt;&lt;p&gt;
A busbar is a conductive metallic strip, typically made of copper or aluminum, and is used for power connection or distribution. Busbars have found wide-ranging applications and grown in demand for use not only in switchboards and control panels but also in electric vehicles (EVs) and hybrid vehicles (HEVs) more recently.
&lt;/p&gt;&lt;p&gt;
For being subjected to high currents and high voltages, busbars are protected with</description>
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   <pubDate>Wed, 11 Sep 2024 02:00:00 -0500</pubDate>
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   <title>Shin-Etsu Chemical Develops Industry-First Heat-Shrinkable Silicone Rubber Tubing for Busbar Covering</title>
   <link>http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+Develops+Industry-First+Heat-Shrinkable+Silicone+Rubber+Tubing+for+Busbar+Covering/23710140.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (TOKYO: 4063) (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed the ST-OR Type heat-shrinkable silicone rubber tubing for busbar covering for the first time in the industry*.
&lt;/p&gt;&lt;p&gt;
A busbar is a conductive metallic strip, typically made of copper or aluminum, and is used for power connection or distribution. Busbars have found wide-ranging applications and grown in demand for use not only in switchboards and control panels but also in electric vehicles (EVs) and hybrid vehicles (HEVs) more recently.
&lt;/p&gt;&lt;p&gt;
For being subjected to high currents and high voltages, busbars are protected with</description>
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   <pubDate>Wed, 11 Sep 2024 02:00:00 -0500</pubDate>
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   	   	<category domain="http://rss.financialcontent.com/stocksymbol">SHECY</category>
   	  </item>
  <item>
   <title>Shin-Etsu Chemical Develops Industry-First Heat-Shrinkable Silicone Rubber Tubing for Busbar Covering</title>
   <link>http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+Develops+Industry-First+Heat-Shrinkable+Silicone+Rubber+Tubing+for+Busbar+Covering/23710140.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (TOKYO: 4063) (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed the ST-OR Type heat-shrinkable silicone rubber tubing for busbar covering for the first time in the industry*.
&lt;/p&gt;&lt;p&gt;
A busbar is a conductive metallic strip, typically made of copper or aluminum, and is used for power connection or distribution. Busbars have found wide-ranging applications and grown in demand for use not only in switchboards and control panels but also in electric vehicles (EVs) and hybrid vehicles (HEVs) more recently.
&lt;/p&gt;&lt;p&gt;
For being subjected to high currents and high voltages, busbars are protected with</description>
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   <pubDate>Wed, 11 Sep 2024 02:00:00 -0500</pubDate>
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   	  </item>
  <item>
   <title>Shin-Etsu Chemical Develops Industry-First Heat-Shrinkable Silicone Rubber Tubing for Busbar Covering</title>
   <link>http://www.streetinsider.com/Business+Wire/Shin-Etsu+Chemical+Develops+Industry-First+Heat-Shrinkable+Silicone+Rubber+Tubing+for+Busbar+Covering/23710140.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (TOKYO: 4063) (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed the ST-OR Type heat-shrinkable silicone rubber tubing for busbar covering for the first time in the industry*.
&lt;/p&gt;&lt;p&gt;
A busbar is a conductive metallic strip, typically made of copper or aluminum, and is used for power connection or distribution. Busbars have found wide-ranging applications and grown in demand for use not only in switchboards and control panels but also in electric vehicles (EVs) and hybrid vehicles (HEVs) more recently.
&lt;/p&gt;&lt;p&gt;
For being subjected to high currents and high voltages, busbars are protected with</description>
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   <pubDate>Wed, 11 Sep 2024 02:00:00 -0500</pubDate>
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   	   	<category domain="http://rss.financialcontent.com/stocksymbol">O.05105736</category>
   	   	<category domain="http://rss.financialcontent.com/stocksymbol">SHECY</category>
   	  </item>
  <item>
   <title>Shin-Etsu Chemical Develops Industry-First Heat-Shrinkable Silicone Rubber Tubing for Busbar Covering</title>
   <link>http://www.streetinsider.com/Business+Wire/Shin-Etsu+Chemical+Develops+Industry-First+Heat-Shrinkable+Silicone+Rubber+Tubing+for+Busbar+Covering/23710140.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (TOKYO: 4063) (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed the ST-OR Type heat-shrinkable silicone rubber tubing for busbar covering for the first time in the industry*.
&lt;/p&gt;&lt;p&gt;
A busbar is a conductive metallic strip, typically made of copper or aluminum, and is used for power connection or distribution. Busbars have found wide-ranging applications and grown in demand for use not only in switchboards and control panels but also in electric vehicles (EVs) and hybrid vehicles (HEVs) more recently.
&lt;/p&gt;&lt;p&gt;
For being subjected to high currents and high voltages, busbars are protected with</description>
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   <pubDate>Wed, 11 Sep 2024 02:00:00 -0500</pubDate>
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   	  </item>
  <item>
   <title>Shin-Etsu Chemical Develops Industry-First Heat-Shrinkable Silicone Rubber Tubing for Busbar Covering</title>
   <link>http://www.streetinsider.com/Business+Wire/Shin-Etsu+Chemical+Develops+Industry-First+Heat-Shrinkable+Silicone+Rubber+Tubing+for+Busbar+Covering/23710140.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (TOKYO: 4063) (Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) developed the ST-OR Type heat-shrinkable silicone rubber tubing for busbar covering for the first time in the industry*.
&lt;/p&gt;&lt;p&gt;
A busbar is a conductive metallic strip, typically made of copper or aluminum, and is used for power connection or distribution. Busbars have found wide-ranging applications and grown in demand for use not only in switchboards and control panels but also in electric vehicles (EVs) and hybrid vehicles (HEVs) more recently.
&lt;/p&gt;&lt;p&gt;
For being subjected to high currents and high voltages, busbars are protected with</description>
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   <pubDate>Wed, 11 Sep 2024 02:00:00 -0500</pubDate>
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   <title>Shin-Etsu Chemical to Develop a QSTTM Substrate for 300-mm GaN</title>
   <link>http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+to+Develop+a+QSTTM+Substrate+for+300-mm+GaN/23688977.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (TOKYO: 4063)(Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) has created a 300-mm (12-inch) QSTTM substrate, which is a substrate dedicated to GaN epitaxial growth, and recently started supplying samples.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical has sold 150-mm (6-inch) and 200-mm (8-inch) QSTTM substrates and GaN on QSTTM epitaxial substrates of each diameter. Meanwhile, the company worked on further increasing the diameter in response to strong customer demand and successfully developed a 300-mm (12-inch) QSTTM substrate. GaN device manufacturers cannot benefit from increasing the diameter of materials because of the lack in large-diameter substrate</description>
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   <pubDate>Thu, 05 Sep 2024 00:00:00 -0500</pubDate>
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   <title>Shin-Etsu Chemical to Develop a QSTTM Substrate for 300-mm GaN</title>
   <link>http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+to+Develop+a+QSTTM+Substrate+for+300-mm+GaN/23688977.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (TOKYO: 4063)(Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) has created a 300-mm (12-inch) QSTTM substrate, which is a substrate dedicated to GaN epitaxial growth, and recently started supplying samples.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical has sold 150-mm (6-inch) and 200-mm (8-inch) QSTTM substrates and GaN on QSTTM epitaxial substrates of each diameter. Meanwhile, the company worked on further increasing the diameter in response to strong customer demand and successfully developed a 300-mm (12-inch) QSTTM substrate. GaN device manufacturers cannot benefit from increasing the diameter of materials because of the lack in large-diameter substrate</description>
   <guid isPermaLink="true">http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+to+Develop+a+QSTTM+Substrate+for+300-mm+GaN/23688977.html</guid>
   <pubDate>Thu, 05 Sep 2024 00:00:00 -0500</pubDate>
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   <title>Shin-Etsu Chemical to Develop a QSTTM Substrate for 300-mm GaN</title>
   <link>http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+to+Develop+a+QSTTM+Substrate+for+300-mm+GaN/23688977.html</link>
   <description>
&lt;p&gt;    TOKYO--(BUSINESS WIRE)--
Shin-Etsu Chemical Co., Ltd. (TOKYO: 4063)(Head Office: Tokyo; President: Yasuhiko Saitoh; hereinafter, “Shin-Etsu Chemical”) has created a 300-mm (12-inch) QSTTM substrate, which is a substrate dedicated to GaN epitaxial growth, and recently started supplying samples.

&lt;/p&gt;&lt;p&gt;
Shin-Etsu Chemical has sold 150-mm (6-inch) and 200-mm (8-inch) QSTTM substrates and GaN on QSTTM epitaxial substrates of each diameter. Meanwhile, the company worked on further increasing the diameter in response to strong customer demand and successfully developed a 300-mm (12-inch) QSTTM substrate. GaN device manufacturers cannot benefit from increasing the diameter of materials because of the lack in large-diameter substrate</description>
   <guid isPermaLink="true">http://www.streetinsider.com/Press+Releases/Shin-Etsu+Chemical+to+Develop+a+QSTTM+Substrate+for+300-mm+GaN/23688977.html</guid>
   <pubDate>Thu, 05 Sep 2024 00:00:00 -0500</pubDate>
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