Cu Wire resistance improvement using Mn-based Self-Formed Barriers

机译：使用基于Mn的自成屏障的Cu导线抗性改善

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Cu wire resistance reduction using CVD Mn-based Self-Formed Barrier (SFB) compared to conventional PVD barrier was investigated at 40 and 100nm half pitch (HP). Mn-based SFB leads to both (1) maximum fractional Cu area in the trenches and (2) Cu resistivity reduction at scaled dimensions. This represents a breakthrough for future interconnect scaling. Blanket Cu experiments suggest that the Cu resistivity reduction in the case of Mn-based SFB can be attributed to lower surface scattering at the dielectric/Cu interface. Finally, promising reliability has been demonstrated in 20nm HP single damascene (SD) SiO2 trenches integrated with Mn-based SFB.

机译：在40和100nm半间距（HP）下，研究了使用CVD Mn的自成屏障（SFB）与常规PVD屏障的基于CVD Mn的自成屏障（SFB）的耐热降低。基于MN的SFB导致沟槽中的（1）在沟槽中的最大分数Cu区域和（2）尺寸尺寸下的电阻率降低。这代表了未来互连缩放的突破。毯子Cu实验表明，基于MN的SFB的情况下的Cu电阻率降低可归因于电介质/ Cu接口处的下表面散射。最后，在20nm HP单镶嵌（SD）SiO2沟槽中，已经证实了有前途的可靠性，与基于MN的SFB集成。

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《IEEE International Interconnect Technology Conference》|2014年|391p|共4页
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SIEW Y.K.; Jourdan N.; Ciofi I.; Croes K.;
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1. Oxygen-Induced Barrier Failure in Ti-Based Self-Formed and Ta/TaN Barriers for Cu Interconnects [J] . Kazuhiro Ito, Kazuyuki Kohama, Keiji Hamasaka, Japanese journal of applied physics . 2012,第4ISSUE2期

机译：铜互连的Ti基自形成和Ta / TaN势垒中的氧诱导势垒失效
2. Improvement of Electrochemical Migration Resistance by Cu/Sn Intermetallic Compound Barrier on Cu in Printed Circuit Board [J] . IEEE transactions on device and materials reliability . 2014,第1期

机译：Cu / Sn金属间化合物阻挡层对印刷电路板中Cu的耐电化学迁移性
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机译：在离子液体中的MNO和Cu的共析出作为朝向自成的阻挡层的第一步
4. Cu Wire resistance improvement using Mn-based Self-Formed Barriers [C] . SIEW Y.K., Jourdan N., Ciofi I., 2014 IEEE International Interconnect Technology Conference / Advanced Metallization Conference . 2014

机译：使用基于Mn的自形成壁垒提高Cu线电阻
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8. Development of superconducting YBa2Cu3O(x) wires with low resistance electrical contacts [R] . Buoncristiani, A. M., Byvik, C. E., Caton, R., 1993

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Cu Wire resistance improvement using Mn-based Self-Formed Barriers

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