摘要:
In the process of forming a trench capacitor, the conductive strap connecting the center electrode of the capacitor with a circuit element in the substrate, such as the pass transistor of a DRAM cell, is separated from the crystalline substrate material by a barrier layer of silicon carbide formed during the process of etching the material within the trench, such as an oxide collar, using a reactive ion etch process with an etchant gas that contains carbon, such as C4F8.
摘要:
A method for manufacturing a memory device, and a resulting device, is described using silicon oxide doped chalcogenide material. A first electrode having a contact surface; a body of phase change memory material in a polycrystalline state including a portion in contact with the contact surface of the first electrode, and a second electrode in contact with the body of phase change material are formed. The process includes melting and cooling the phase change memory material one or more times within an active region in the body of phase change material without disturbing the polycrystalline state outside the active region. A mesh of silicon oxide in the active region with at least one domain of chalcogenide material results. Also, the grain size of the phase change material in the polycrystalline state outside the active region is small, resulting in a more uniform structure.
摘要:
A method for manufacturing a memory device, and a resulting device, is described using silicon oxide doped chalcogenide material. A first electrode having a contact surface; a body of phase change memory material in a polycrystalline state including a portion in contact with the contact surface of the first electrode, and a second electrode in contact with the body of phase change material are formed. The process includes melting and cooling the phase change memory material one or more times within an active region in the body of phase change material without disturbing the polycrystalline state outside the active region. A mesh of silicon oxide in the active region with at least one domain of chalcogenide material results. Also, the grain size of the phase change material in the polycrystalline state outside the active region is small, resulting in a more uniform structure.
摘要:
An interconnect structure in which the adhesion between an upper level low-k dielectric material, such as a material comprising elements of Si, C, O, and H, and an underlying diffusion capping dielectric, such as a material comprising elements of C, Si, N and H, is improved by incorporating an adhesion transition layer between the two dielectric layers. The presence of the adhesion transition layer between the upper level low-k dielectric and the diffusion barrier capping dielectric can reduce the chance of delamination of the interconnect structure during the packaging process. The adhesion transition layer provided herein includes a lower SiOx- or SiON-containing region and an upper C graded region. Methods of forming such a structure, in particularly the adhesion transition layer, are also provided.
摘要翻译:一种互连结构,其中上层低k介电材料(例如包含Si,C,O和H的元素的材料)与下面的扩散覆盖电介质(例如包含C,Si元素的材料)之间的粘合 通过在两个电介质层之间引入粘附过渡层来改善N和H。 在上层低k电介质和扩散阻挡覆盖电介质之间的粘附过渡层的存在可以减少在包装过程中互连结构的分层的可能性。 本文提供的粘合过渡层包括含低级SiO x - 或SiON的区域和上C级分区域。 还提供了形成这种结构,特别是粘附过渡层的方法。
摘要:
An interconnect structure in which the adhesion between an upper level low-k dielectric material, such as a material comprising elements of Si, C, O, and H, and an underlying diffusion capping dielectric, such as a material comprising elements of C, Si, N and H, is improved by incorporating an adhesion transition layer between the two dielectric layers. The presence of the adhesion transition layer between the upper level low-k dielectric and the diffusion barrier capping dielectric can reduce the chance of delamination of the interconnect structure during the packaging process. The adhesion transition layer provided herein includes a lower SiOx— or SiON-containing region and an upper C graded region. Methods of forming such a structure, in particularly the adhesion transition layer, are also provided.
摘要翻译:一种互连结构,其中上层低k介电材料(例如包含Si,C,O和H的元素的材料)与下面的扩散覆盖电介质(例如包含C,Si元素的材料)之间的粘合 通过在两个电介质层之间引入粘附过渡层来改善N和H。 在上层低k电介质和扩散阻挡覆盖电介质之间的粘附过渡层的存在可以减少在包装过程中互连结构的分层的可能性。 本文提供的粘合过渡层包括含低级SiO x - 或SiON的区域和上C级分区域。 还提供了形成这种结构,特别是粘附过渡层的方法。