We have investigated the low temperature epitaxy of high Sn content GeSn alloys in a 200 mm industrial Reduced Pressure - Chemical Vapor Deposition tool from Applied Materials. Gaseous digermane (Ge2H6) and liquid tin tetrachloride (SnCl4) were used as the Ge and Sn precursors, respectively. The impact of temperature (in the 300-350 degrees C range), Ge2H6 and SnCl4 mass-flows on the GeSn growth kinetics at 100 Torr has been thoroughly explored. Be it at 300 degrees C or 325 degrees C, a linear GeSn growth rate increase together with a sub-linear Sn concentration increase occurred as the SnCl4 mass-flow increased, irrespective of the Ge2H6 mass flow (fixed or varying). The Sn atoms seemed to catalyze H desorption from the surface, resulting in higher GeSn growth rates for high SnCl4 mass-flows (in the 4-21 nm min(-1) range). The evolution of the Sn content x with the F(SnCl4)/2.F(Ge2H6) mass-flow ratio was fitted by x(2)/(1-x) = n.F(SnCl4)/2.F(Ge2H6), with n = 0.25 (325 degrees C) and 0.60 (300 degrees C). We have otherwise studied the impact of temperature, in the 300350 degrees C range, on the GeSn growth kinetics. The GeSn growth rate exponentially increased with the temperature, from 15 up to 32 nm min(-1). The associated activation energy was low, i.e. E-a = 10 kcal mol(-1). Meanwhile, the Sn content decreased linearly as the growth temperature increased, from 15% at 300 degrees C down to 6% at 350 degrees C. (C) 2017 Elsevier B.V. All rights reserved.