Low Temperature Deposition of WN_xC_yDiffusion Barriers Using WN(NEt₂)₃as a Single-Source Precursor

Abstract: Deposition of high quality WN x C y barrier films at very low temperature using aerosol-assisted chemical vapor deposition (AACVD) is reported. The single-source tungsten nitrido complex, WN(NEt 2 ) 3 , was designed to reduce the temperature required for WN x C y film deposition in an effort to minimize thermal stresses on neighboring layers in device structures. Using either pyridine or heptane as a solvent, WN x C y films were successfully deposited at temperatures from 100 to 650 • C. Film growth in pyridin… Show more

“…Considerations employed in the design of WN(NMe 2 ) 3 ( 2 ), included a multiply bonded W≡N moiety, only N-bound ligands, and facile access to a small library of derivatives. [5f, 5g] The incorporation of a terminal nitrido moiety was associated with a low film deposition temperature (125 °C) from this precursor. The relationship between the volatility of WN(NR 2 ) 3 complexes and amido ligand structure was also explored in order to improve the vapor-phase transport of the precursors, which is a critical property in deposition methods that use bubblers for volatilization, such as CVD and ALD.…”

“…The attempted synthesis of N- tert -butyl guanidinato derivatives of 1 by addition of N,N′-di- tert- butylcarbodiimide to solutions of 2 resulted in recovery of starting material, even after extended reflux at temperatures up to 115 °C, suggesting steric limitations to the insertion reaction. Because 2 readily undergoes transamination with secondary amines to access different amido ligands, [5g] a similar procedure was attempted to generate additional dialkylamido derivatives of 1 . However, this strategy was ultimately unsuccessful.…”

“…[4] Previously reported single source precursors for deposition of WN x C y have utilized N-bound ligands such as nitrido, imido, hydrazido, amido, guanidinato, and amidinato moieties to provide the nitrogen in the resulting material. [5] Optimization of the precursors has primarily targeted low temperature deposition (<350 °C) to minimize and thermal damage to the substrate. Our studies of tungsten nitrido complexes of the type WN(NR 2 ) 3 demonstrated that the W≡N and W–NR 2 moieties are acceptable sources of N in depositions carried out at temperatures as low as 125 °C.…”

“…In addition, variation of the substituents in the amido moieties of WN(NR 2 ) 3 provided a means to tune the precursor volatility. [5g],[6]…”

“…Our previous study of the tungsten imido guanidinato precursor W(N i Pr)Cl 3 [( i PrN) 2 CNMe 2 ] demonstrated that guanidinato ligands are suitable for use in precursors for the AACVD of WN x C y . [5d] We now report the synthesis of tungsten nitrido amido guanidinato precursors along with a demonstration of the use of WN(NMe 2 )[(N i Pr) 2 C(NMe 2 )] 2 ( 1 ) as a single source precursor for the AACVD of WN x C y thin films.…”

Synthesis and Characterization of Tungsten Nitrido Amido Guanidinato Complexes as Precursors for Chemical Vapor Deposition of WN_xC_y Thin Films

“…Considerations employed in the design of WN(NMe 2 ) 3 ( 2 ), included a multiply bonded W≡N moiety, only N-bound ligands, and facile access to a small library of derivatives. [5f, 5g] The incorporation of a terminal nitrido moiety was associated with a low film deposition temperature (125 °C) from this precursor. The relationship between the volatility of WN(NR 2 ) 3 complexes and amido ligand structure was also explored in order to improve the vapor-phase transport of the precursors, which is a critical property in deposition methods that use bubblers for volatilization, such as CVD and ALD.…”

“…The attempted synthesis of N- tert -butyl guanidinato derivatives of 1 by addition of N,N′-di- tert- butylcarbodiimide to solutions of 2 resulted in recovery of starting material, even after extended reflux at temperatures up to 115 °C, suggesting steric limitations to the insertion reaction. Because 2 readily undergoes transamination with secondary amines to access different amido ligands, [5g] a similar procedure was attempted to generate additional dialkylamido derivatives of 1 . However, this strategy was ultimately unsuccessful.…”

“…[4] Previously reported single source precursors for deposition of WN x C y have utilized N-bound ligands such as nitrido, imido, hydrazido, amido, guanidinato, and amidinato moieties to provide the nitrogen in the resulting material. [5] Optimization of the precursors has primarily targeted low temperature deposition (<350 °C) to minimize and thermal damage to the substrate. Our studies of tungsten nitrido complexes of the type WN(NR 2 ) 3 demonstrated that the W≡N and W–NR 2 moieties are acceptable sources of N in depositions carried out at temperatures as low as 125 °C.…”

“…In addition, variation of the substituents in the amido moieties of WN(NR 2 ) 3 provided a means to tune the precursor volatility. [5g],[6]…”

“…Our previous study of the tungsten imido guanidinato precursor W(N i Pr)Cl 3 [( i PrN) 2 CNMe 2 ] demonstrated that guanidinato ligands are suitable for use in precursors for the AACVD of WN x C y . [5d] We now report the synthesis of tungsten nitrido amido guanidinato precursors along with a demonstration of the use of WN(NMe 2 )[(N i Pr) 2 C(NMe 2 )] 2 ( 1 ) as a single source precursor for the AACVD of WN x C y thin films.…”

Synthesis and Characterization of Tungsten Nitrido Amido Guanidinato Complexes as Precursors for Chemical Vapor Deposition of WN_xC_y Thin Films

Atomic layer deposition of tungsten and tungsten-based compounds using WCl5 and various reactants selected by density functional theory

Effect of the Ligand Structure on Chemical Vapor Deposition of WN_xC_y Thin Films from Tungsten Nitrido Complexes of the Type WN(NR₂)₃