Proximity-Scan ALD (PS-ALD) 에 의한 Al₂O₃와 HfO₂ 박막증착 기술 및 박막의 전기적 특성Deposition and Electrical Properties of Al₂O₃ and HfO₂ Films Deposited by a New Technique of Proximity-ScanALD (PS-ALD)
- Other Titles
- Deposition and Electrical Properties of Al₂O₃ and HfO₂ Films Deposited by a New Technique of Proximity-ScanALD (PS-ALD)
- Authors
- 권영수; 이미영; 오재응
- Issue Date
- Mar-2008
- Publisher
- 한국재료학회
- Keywords
- ALD; Al₂O₃; HfO₂; gate dielectrics; high productivity.
- Citation
- 한국재료학회지, v.18, no.3, pp.345 - 358
- Indexed
- SCOPUS
KCI
- Journal Title
- 한국재료학회지
- Volume
- 18
- Number
- 3
- Start Page
- 345
- End Page
- 358
- URI
- https://scholarworks.bwise.kr/erica/handle/2021.sw.erica/42976
- ISSN
- 1225-0562
- Abstract
- A new cost-effective atomic layer deposition (ALD) technique, known as Proximity-Scan ALD (PS-ALD) was developed and its benefits were demonstrated by depositing Al₂O₃ and HfO₂ thin films using TMA and TEMAHf, respectively, as precursors. The system is consisted of two separate injectors for precursors and reactants that are placed near a heated substrate at a proximity of less than 1cm. The bell-shaped injector chamber separated but close to the substrate forms a local chamber, maintaining higher pressure compared to the rest of chamber. Therefore, a system configuration with a rotating substrate gives the typical sequential deposition process of ALD under a continuous source flow without the need for gas switching. As the pressure required for the deposition is achieved in a small local volume, the need for an expensive metal organic (MO) source is reduced by a factor of approximately 100 concerning the volume ratio of local to total chambers. Under an optimized deposition condition, the deposition rates of Al₂O₃and HfO₂ were 1.3 Å/cycle and 0.75 Å/cycle, respectively, with dielectric constants of 9.4 and 23. A relatively short cycle time (5~10sec) due to the lack of the time-consuming "purging and pumping" process and the capability of multi-wafer processing of the proposed technology offer a very high through-put in addition to a lower cost.
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