MOCVD of Cr[sub 3](C,N)[sub 2] and CrSi[sub x]C[sub y] Films

Gasquères, C.; Duminica, Florin-Daniel; Maury, F.

doi:10.1149/1.2077309

J. Electrochem. Soc.

2005

DOI: 10.1149/1.2077309

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MOCVD of Cr[sub 3](C,N)[sub 2] and CrSi[sub x]C[sub y] Films

C. Gasquères

Florin-Daniel Duminica

F. Maury

Abstract: Properties as conducting diffusion barrier against Cu of two types of original Cr-based thin films grown by low-pressure metallorganic chemical vapor deposition ͑MOCVD͒ on Si͑100͒ and SiO 2 /Si patterned substrates were investigated. Amorphous as-deposited CrC x N y and CrSi x C y layers were deposited using Cr͑NEt 2 ͒ 4 and Cr͓CH 2 SiMe 3 ͔ 4 , respectively, as single-source precursor in the low-temperature range 400-420°C and 475-500°C. Then Cu films were grown on top of these barrier by low-pressure MOCVD u… Show more

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Cited by 3 publications

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“…The behavior of these Cr-based thin films as barrier materials is reported in a companion paper. 39 * Electrochemical Society Active Member.…”

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confidence: 99%

MOCVD of Cr[sub 3](C,N)[sub 2] and CrSi[sub x]C[sub y] Films

Gasquères¹,

Duminica²,

Maury³

et al. 2005

J. Electrochem. Soc.

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CrC x N y and CrSi x C y thin films were deposited under low pressure by metallorganic chemical vapor deposition ͑MOCVD͒ in the temperature ranges 380-450°C and 450-500°C, respectively, using Cr͑NEt 2 ͒ 4 and Cr͑CH 2 SiMe 3 ͒ 4 as single-source precursors. The growth was achieved in a cold-wall vertical reactor using, respectively, H 2 and He as the carrier gases. Both types of films exhibit a mirrorlike surface morphology and are amorphous as-deposited. The CrC x N y layers start to crystallize at 600°C after annealing for 1 h under vacuum, whereas it is necessary to reach 650°C under H 2 atmosphere. In both cases, the original ternary phase Cr 3 ͑C 0.8 N 0.2 ͒ 2 crystallizes. The resistivity of as-deposited amorphous CrC x N y films is typically 600 ⍀ cm, and it decreases to 150 ⍀ cm after annealing upon the formation of polycrystalline Cr 3 ͑C,N͒ 2 films. The CrSi x C y layers have a very stable amorphous structure until 850°C for 4 h. In spite of their metallic appearance, they exhibit a high resistivity compared to the Cr 3 ͑C,N͒ 2 films. The main characteristics of these Cr-based layers is presented and discussed.

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“…The behavior of these Cr-based thin films as barrier materials is reported in a companion paper. 39 * Electrochemical Society Active Member.…”

mentioning

confidence: 99%

MOCVD of Cr[sub 3](C,N)[sub 2] and CrSi[sub x]C[sub y] Films

Gasquères¹,

Duminica²,

Maury³

et al. 2005

J. Electrochem. Soc.

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Carbon based Si- and Cr-containing thin films: Chemical and nanomechanical properties

Bertóti

Mohai

Kereszturi

et al. 2009

Solid State Sciences

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Chemical structure and mechanical properties of Si-containing a-C:H and a-C thin films and their Cr- and W-containing derivatives

Bertóti

Tóth

Mohai

et al. 2011

Surface and Coatings Technology

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MOCVD of Cr[sub 3](C,N)[sub 2] and CrSi[sub x]C[sub y] Films

Cited by 3 publications

References 15 publications

MOCVD of Cr[sub 3](C,N)[sub 2] and CrSi[sub x]C[sub y] Films

MOCVD of Cr[sub 3](C,N)[sub 2] and CrSi[sub x]C[sub y] Films

Carbon based Si- and Cr-containing thin films: Chemical and nanomechanical properties

Chemical structure and mechanical properties of Si-containing a-C:H and a-C thin films and their Cr- and W-containing derivatives

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