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METHOD FOR GROWING GALLIUM NITRIDE BASED ON GRAPHENE AND MAGNETRON SPUTTERED ALUMINIUM NITRIDE

机译：石墨烯和磁控溅射氮化铝的氮化镓生长方法

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摘要

The present invention discloses a method for growing gallium nitride based on graphene and magnetron sputtered aluminum nitride, and a gallium nitride thin film. The method according to an embodiment comprises: spreading graphene over a substrate; magnetron sputtering an aluminum nitrite onto the graphene-coated substrate to obtain a substrate sputtered with aluminum nitrite; placing the substrate sputtered with aluminum nitride into a MOCVD reaction chamber and heat treating the substrate to obtain a heat treated substrate; growing an aluminum nitride transition layer on the heat treated substrate and a first and a second gallium nitride layer having different V-III ratios, respectively. The gallium nitrate thin film according to an embodiment comprises the following structures in order from bottom to top: a substrate (1), a graphene layer (2), an aluminum nitride nucleation layer (3) fabricated by using a magnetron sputtering method, an aluminum nitride transition layer (4) grown by MOCVD, and a first and a second gallium nitrate layer (5, 6) having different V-III ratios.

机译：本发明公开了一种基于石墨烯和磁控溅射氮化铝的氮化镓的生长方法以及氮化镓薄膜。根据实施例的方法包括：将石墨烯散布在衬底上;以及将石墨烯散布在衬底上。磁控管将亚硝酸铝溅射到涂覆有石墨烯的基板上，以获得溅射有亚硝酸铝的基板。将溅射有氮化铝的基板放入MOCVD反应室中，并对该基板进行热处理以获得热处理过的基板;在热处理过的衬底上生长氮化铝过渡层，并分别具有不同的V-III比的第一和第二氮化镓层。根据一个实施方案的硝酸镓薄膜从底部到顶部依次包括以下结构：基板（ 1 ），石墨烯层（ 2 ），氮化铝使用磁控溅射法制造的成核层（ 3 ），通过MOCVD生长的氮化铝过渡层（ 4 ）以及第一和第二硝酸镓层（< B> 5，6 ）具有不同的V-III比。 展开▼

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公开/公告号US2019108999A1

专利类型

公开/公告日2019-04-11

原文格式PDF

申请/专利权人 XIDIAN UNIVERSITY;
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申请/专利号US201616083255

发明设计人 JINCHENG ZHANG;JING NING;DONG WANG;ZHIBIN CHEN;ZHIYU LIN;YUE HAO;
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申请日2016-09-28

分类号H01L21/02;H01L29/20;C30B25/18;C30B29/40;C23C14/06;C23C16/30;C23C16/02;C23C14/35;

国家 US

入库时间 2022-08-21 12:10:12

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