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公开(公告)号:US09236633B2
公开(公告)日:2016-01-12
申请号:US13916033
申请日:2013-06-12
发明人: Junhong Chen , Marija Gajdardziska-Josifovska , Carol Hirschmugl , Eric Mattson , Haihui Pu , Michael Weinert
IPC分类号: H01M10/0525 , C01B31/04 , C30B19/00 , H01M4/583 , G01N27/00 , C30B7/00 , C30B29/02 , C30B29/60 , B82Y40/00 , G01N27/12 , B82Y30/00
CPC分类号: H01M10/0525 , B82Y30/00 , B82Y40/00 , C01B32/23 , C30B7/00 , C30B29/02 , C30B29/60 , G01N27/127 , H01M4/583 , Y10S977/734 , Y10S977/892 , Y10S977/932 , Y10S977/948 , Y10S977/957
摘要: A composition of graphene-based nanomaterials and a method of preparing the composition are provided. A carbon-based precursor is dissolved in water to form a precursor suspension. The precursor suspension is placed onto a substrate, thereby forming a precursor assembly. The precursor assembly is annealed, thereby forming the graphene-based nanomaterials. The graphene-based nanomaterials are crystallographically ordered at least in part and configured to form a plurality of diffraction rings when probed by an incident electron beam. In one aspect, the graphene-based nanomaterials are semiconducting. In one aspect, a method of engineering an energy bandgap of graphene monoxide generally includes providing at least one atomic layer of graphene monoxide having a first energy bandgap, and applying a substantially planar strain is applied to the graphene monoxide, thereby tuning the first energy band gap to a second energy bandgap.
摘要翻译: 提供了基于石墨烯的纳米材料的组合物和制备该组合物的方法。 将碳基前体溶于水中以形成前体悬浮液。 将前体悬浮液置于基材上,从而形成前体组合物。 将前体组件退火,从而形成基于石墨烯的纳米材料。 基于石墨烯的纳米材料至少部分地被晶体学排列,并且被构造成当被入射电子束探测时形成多个衍射环。 在一个方面,基于石墨烯的纳米材料是半导体的。 一方面,一种制备石墨烯一氧化碳的能带隙的方法通常包括提供具有第一能带隙的至少一个具有一氧化碳原子层的原子层,并且施加基本上平面的应变施加到一氧化碳上,由此调节第一能带 与第二能量带隙的差距。
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公开(公告)号:US20130344390A1
公开(公告)日:2013-12-26
申请号:US13916033
申请日:2013-06-12
发明人: Junhong Chen , Marija Gajdardziska-Josifovska , Carol Hirschmugl , Eric Mattson , Haihui Pu , Michael Weinert
IPC分类号: H01M10/0525 , G01N27/00 , H01M4/583 , C01B31/04 , C30B19/00
CPC分类号: H01M10/0525 , B82Y30/00 , B82Y40/00 , C01B32/23 , C30B7/00 , C30B29/02 , C30B29/60 , G01N27/127 , H01M4/583 , Y10S977/734 , Y10S977/892 , Y10S977/932 , Y10S977/948 , Y10S977/957
摘要: A composition of graphene-based nanomaterials and a method of preparing the composition are provided. A carbon-based precursor is dissolved in water to form a precursor suspension. The precursor suspension is placed onto a substrate, thereby forming a precursor assembly. The precursor assembly is annealed, thereby forming the graphene-based nanomaterials. The graphene-based nanomaterials are crystallographically ordered at least in part and configured to form a plurality of diffraction rings when probed by an incident electron beam. In one aspect, the graphene-based nanomaterials are semiconducting. In one aspect, a method of engineering an energy bandgap of graphene monoxide generally includes providing at least one atomic layer of graphene monoxide having a first energy bandgap, and applying a substantially planar strain is applied to the graphene monoxide, thereby tuning the first energy band gap to a second energy bandgap.
摘要翻译: 提供了基于石墨烯的纳米材料的组合物和制备该组合物的方法。 将碳基前体溶于水中以形成前体悬浮液。 将前体悬浮液置于基材上,从而形成前体组合物。 将前体组件退火,从而形成基于石墨烯的纳米材料。 基于石墨烯的纳米材料至少部分地被晶体学排列,并且被构造成当被入射电子束探测时形成多个衍射环。 在一个方面,基于石墨烯的纳米材料是半导体的。 一方面,一种制备石墨烯一氧化碳的能带隙的方法通常包括提供具有第一能带隙的至少一个具有一氧化碳原子层的原子层,并且施加基本上平面的应变施加到一氧化碳上,由此调节第一能带 与第二能量带隙的差距。
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