posted on 2022-03-15, 13:36authored byMichael A. Land, Goran Bačić, Katherine N. Robertson, Seán T. Barry
The
vapor deposition of many molybdenum-containing films relies
on the delivery of volatile compounds with the general bis(tert-butylimido)molybdenum(VI) framework, both in atomic
layer deposition and chemical vapor deposition. We have prepared a
series of (tBuN)2MoCl2 adducts using neutral N,N′-chelates
and investigated their volatility, thermal stability, and decomposition
pathways. Volatility has been determined by thermogravimetric analysis,
with the 1,4-di-tert-butyl-1,3-diazabutadiene adduct
(5) found to be the most volatile (1 Torr of vapor pressure
at 135 °C). Thermal stability was measured primarily using differential
scanning calorimetry, and the 1,10-phenanthroline adduct (4) was found to be the most stable with an onset of decomposition
of 303 °C. We have also investigated molybdenum compounds with
other alkyl-substituted imido groups: these compounds all follow a
similar decomposition pathway, γ-H activation, with varying
reaction barriers. The tert-pentyl, 1-adamantyl,
and a cyclic imido (from 2,5-dimethylhexane-2,5-diamine) were systematically
studied to probe the kinetics of this pathway. All of these compounds
have been fully characterized, including via single-crystal X-ray
diffraction, and a total of 19 new structures are reported.