Atomic layer deposition of zirconium oxide on copper patterned silicon substrate

The Journal of Undergraduate Research at the University of Illinois at Chicago Pub Date : 2014-01-10 DOI:10.5210/JUR.V7I1.7526

J. Parulekar, S. K. Selvaraj, C. Takoudis

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Abstract

Atomic layer deposition (ALD) was performed on copper patterned silicon substrates using zirconium precursor and ethanol as both an oxygen source and reducing agent. Ethanol targeted copper oxide formed on the copper surface, reverting it back to metallic copper. Selective ALD (SALD) of metal oxides on silicon surfaces over copper surfaces has been demonstrated up to 2-3 nm, though the process seems to lose its selectivity afterwards. We strive to maintain selectivity to thicker films by stepping away from conventional ALD processes utilizing oxidants. From previous studies with HfO 2 and TiO 2 SALD, we speculate that the oxidation of copper to copper oxide spoils selectivity. In this present study, we carried out oxidant-free ALD by using ethanol as a co-reactant solely on the silicon portion of these substrates. This process will occur in-situ every 20-30 ALD cycles for ALD of ZrO 2 . As expected, reduced ALD growth rate was observed with ethanol compared to that of water or ozone, with a growth rate of about 0.04 nm/cycle on the silicon portion of the substrate.

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氧化锆在铜图案硅衬底上的原子层沉积

以锆前驱体和乙醇为氧源和还原剂，在铜图案硅衬底上进行了原子层沉积(ALD)。乙醇针对铜表面形成的氧化铜，将其还原为金属铜。金属氧化物在硅表面上的选择性ALD (SALD)已被证明可达2-3 nm，尽管该过程似乎失去了其选择性。我们努力通过远离利用氧化剂的传统ALD工艺来保持对较厚薄膜的选择性。从先前对HfO 2和TiO 2 SALD的研究中，我们推测铜氧化成氧化铜会破坏选择性。在本研究中，我们使用乙醇作为共反应物，在这些底物的硅部分进行无氧化剂的ALD。对于ZrO - 2的ALD，该过程将每20-30个ALD循环进行一次。正如预期的那样，与水或臭氧相比，在乙醇中观察到ALD的生长速率降低，在衬底的硅部分的生长速率约为0.04 nm/循环。

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The Journal of Undergraduate Research at the University of Illinois at Chicago

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