C ) of 9.7 kΩ/CNT to carbon nanotube"/>
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Low N-Type Contact Resistance to Carbon Nanotubes in Highly Scaled Contacts through Dielectric Doping

Nathaniel Safion,Hsin-Yuan Chiu,Tzu-Ang Chao,Sheng-Kai Su,Matthias Passlack, Kuang-Hsiang Chiu,Chien-Wei Chen,Chi-Chung Kei,Chen-Han Chou,Tsung-En Lee,Jer-Fu Wang,Chih-Sheng Chang,San-Lin Liew,Vincent D- H. Hou,Han Wang,Wen-Hao Chang,H.-S. Philip Wong,Gregory Pitner,Chao-Hsin Chien,Iuliana P. Radu

2023 International Electron Devices Meeting (IEDM)(2023)

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摘要
Low n-type contact resistance (R C ) of 9.7 kΩ/CNT to carbon nanotubes (CNT) with short contact length (L C ) of 20 nm is achieved by utilizing solid-state n- doping near the metal contact. AIN doping with barrier layer demonstrated in this work enables transparent electron conduction for both Pd and Ti metal contacts. We systematically explore doping strength control with barrier thickness, R C trends scaling down to 20 nm L C , CNT bandgap dependence of doping, and device stability for insight into electrical impact of key process parameters. Symmetric R C n- and p-FET reveals a clear path to meet IRDS target for 2034 device roadmap.
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关键词
Low Resistance,Carbon Nanotubes,Contact Resistance,Low Contact Resistance,N-type Contact,Band Gap,Barrier Layer,Pd Metal,Contact Length,Barrier Thickness,Parasitic Capacitance,Schottky Barrier,Gate Oxide,N-type Doping,Low Work Function,Doped Layer
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