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Atomic Layer Deposition of Ultrathin Copper Metal Films from a Liquid Copper(I) Amidinate Precursor

2006; Institute of Physics; Volume: 153; Issue: 11 Linguagem: Inglês

10.1149/1.2338632

1945-7111

Zhengwen Li, Antti Rahtu, Roy G. Gordon,

Molecular Junctions and Nanostructures

We report a method for producing thin, completely continuous and highly conductive copper films conformally inside very narrow holes with aspect ratios over 35:1 by atomic layer deposition (ALD). Pure copper thin films were grown from a novel copper(I) amidinate precursor, copper(I) -di-sec-butylacetamidinate, and molecular hydrogen gas as the reducing agent. This copper precursor is a liquid during vaporization because its melting point is lower than its vaporization temperature . Thus, the transport of the precursor vapor is very reproducible and controllable. Carbon and oxygen impurities were below 1 atom %. The growth per cycle varied from on or surfaces but was only on metallic Ru, Cu, and Co surfaces. On oxide surfaces, copper atoms form isolated copper crystallites that merge into rough polycrystalline films after more deposition cycles. On Ru and Co metal surfaces ALD Cu nucleates densely, forming smooth and strongly adherent films that are continuous even for films as thin as 4 atomic layers. With Cu deposited on Ru substrates, the sheet resistance is below /◻, which is low enough for making seed layers for electroplating Cu interconnect wires.