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公开(公告)号:US20120156545A1
公开(公告)日:2012-06-21
申请号:US12928346
申请日:2010-12-09
IPC分类号: H01M2/14
CPC分类号: H01G9/02 , B82Y10/00 , H01G4/06 , H01G4/085 , H01G4/33 , H01G9/048 , H01G11/26 , H01G11/28 , H01G11/52 , H01L28/40 , H01L29/127 , Y02T10/7022
摘要: In an All-Electron Battery (AEB), inclusions embedded in an active region between two electrodes of a capacitor provide enhanced energy storage. Electrons can tunnel to/from and/or between the inclusions, thereby increasing the charge storage density relative to a conventional capacitor. One or more barrier layers is present in an AEB to block DC current flow through the device. The AEB effect can be enhanced by using multi-layer active regions having inclusion layers with the inclusions separated by spacer layers that don't have the inclusions. The use of cylindrical geometry or wrap around electrodes and/or barrier layers in a planar geometry can enhance the basic AEB effect. Other physical effects that can be employed in connection with the AEB effect are excited state energy storage, and formation of a Bose-Einstein condensate (BEC).
摘要翻译: 在全电子电池(AEB)中,嵌入在电容器的两个电极之间的有源区域中的夹杂物提供增强的能量存储。 电子可以与夹杂物之间和/或内部隧道,从而相对于传统电容器增加电荷存储密度。 AEB中存在一个或多个阻挡层,以阻止流过该装置的直流电流。 可以通过使用具有夹层的多层活性区域来增强AEB效果,其中夹杂物由不具有夹杂物的间隔层分离。 使用圆柱形几何形状或围绕电极和/或平面几何形状的阻挡层,可以增强基本的AEB效果。 可用于AEB效应的其他物理效应是激发状态能量储存和Bose-Einstein凝析物(BEC)的形成。
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公开(公告)号:US08877367B2
公开(公告)日:2014-11-04
申请号:US12928346
申请日:2010-12-09
CPC分类号: H01G9/02 , B82Y10/00 , H01G4/06 , H01G4/085 , H01G4/33 , H01G9/048 , H01G11/26 , H01G11/28 , H01G11/52 , H01L28/40 , H01L29/127 , Y02T10/7022
摘要: In an All-Electron Battery (AEB), inclusions embedded in an active region between two electrodes of a capacitor provide enhanced energy storage. Electrons can tunnel to/from and/or between the inclusions, thereby increasing the charge storage density relative to a conventional capacitor. One or more barrier layers is present in an AEB to block DC current flow through the device. The AEB effect can be enhanced by using multi-layer active regions having inclusion layers with the inclusions separated by spacer layers that don't have the inclusions. The use of cylindrical geometry or wrap around electrodes and/or barrier layers in a planar geometry can enhance the basic AEB effect. Other physical effects that can be employed in connection with the AEB effect are excited state energy storage, and formation of a Bose-Einstein condensate (BEC).
摘要翻译: 在全电子电池(AEB)中,嵌入在电容器的两个电极之间的有源区域中的夹杂物提供增强的能量存储。 电子可以与夹杂物之间和/或内部隧道,从而相对于传统电容器增加电荷存储密度。 AEB中存在一个或多个阻挡层,以阻止流过该装置的直流电流。 可以通过使用具有夹层的多层活性区域来增强AEB效果,其中夹杂物由不具有夹杂物的间隔层分离。 使用圆柱形几何形状或围绕电极和/或平面几何形状的阻挡层,可以增强基本的AEB效果。 可用于AEB效应的其他物理效应是激发状态能量储存和Bose-Einstein凝析物(BEC)的形成。
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