2006
DOI: 10.1007/s11664-006-0178-x
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Crystallization and failure behavior of Ta-TM (TM=Fe, Co) nanostructured/amorphous diffusion barriers for copper metallization

Abstract: This work examined the thin-film properties and diffusion barrier behavior of sputtered Ta-TM (TM ‫ס‬ Fe, Co) films, aiming at depositing a highly crystallization-resistant and conductive diffusion barrier film for Cu metallization. Four-point probe measurement, x-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and a secondary ion mass spectrometer (SIMS) were used to examine the barrier properties. Structural examination indicated that intermetallic-compound-… Show more

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Cited by 10 publications
(3 citation statements)
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“…(1) polycrystalline and amorphous Me-N, Me-C, Me-O and Me-B compounds, such as TiN x [25], VN x [26], ZrN x [27], NbN x [28], MoN x [21], HfN x [29], WN x [30], TaN x [31], WC x [32], TaC x [33], MoO x [34], TaO x [35] and TiB 2 [36], (2) polycrystalline and amorphous Me-Si compounds, such as MoSi x [37], WSi x [38] and TaSi x [39], (3) polycrystalline and amorphous Me alloys, such as TiW x [40], TaCo x and TaFe x [41], TaW x [42], NiNb x [43] and CuZr x [44].…”
Section: Metal-based Barriers As Liners For Cu Seed Depositionmentioning
confidence: 99%
“…(1) polycrystalline and amorphous Me-N, Me-C, Me-O and Me-B compounds, such as TiN x [25], VN x [26], ZrN x [27], NbN x [28], MoN x [21], HfN x [29], WN x [30], TaN x [31], WC x [32], TaC x [33], MoO x [34], TaO x [35] and TiB 2 [36], (2) polycrystalline and amorphous Me-Si compounds, such as MoSi x [37], WSi x [38] and TaSi x [39], (3) polycrystalline and amorphous Me alloys, such as TiW x [40], TaCo x and TaFe x [41], TaW x [42], NiNb x [43] and CuZr x [44].…”
Section: Metal-based Barriers As Liners For Cu Seed Depositionmentioning
confidence: 99%
“…However, these improvements come at the expense of increased electrical resistivity that limits their widespread use. [5] Amorphous Ta-based alloys such as Ta-Ni [6], Ta-Co [7] and Ta-Fe [7] have reduced electrical resistivity but also suffer from depressed crystallization temperatures ranging from <700 °C to <800 °C.…”
Section: Introductionmentioning
confidence: 99%
“…6 In this case, people search for a single layer barrier that can serve as both liner and barrier. 7,8 Co-based alloy barriers have exhibited good properties and have been widely investigated, such as CoW, 8,9 CoMo, 10,11 CoTi, 12,13 CoTa 14,15 and CoRu. 16 Alloying changes the film microstructure from polycrystalline to nanocrystalline or amorphous, reducing the fast diffusion of Cu through grain boundaries and providing better Cu diffusion barrier properties.…”
mentioning
confidence: 99%