CoS is an interesting sulfide material with metallic conductivity that has shown promise for various energy applications. Herein, we report a new atomic layer deposition process producing crystalline, pure, and highly conductive CoS thin films using CoCl(TMEDA) (TMEDA = ,,','-tetramethylethylenediamine) and HS as precursors at 180-300 °C. The lowest resistivity of 80 μΩ cm, best uniformity, and highest growth rate are achieved at 275 °C. Area-selective deposition is enabled by inherent substrate-dependency of film nucleation. We show that a continuous and conductive CoS film can be prepared on oxide-covered silicon without any growth on Si-H. Besides silicon, CoS films can be grown on a variety of substrates. The first example of an epitaxial CoS film is shown using a GaN substrate. The CoS films are stable up to 750 °C in N, 400 °C in forming gas, and 225 °C in O atmosphere. The reported ALD process offers a scalable and cost-effective route to high-quality CoS films, which are of interest for applications ranging from electrocatalysis and rechargeable batteries to metal barrier and liner layers in microelectronics and beyond.
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