Synthesis and Characterization of Calcium <i>N</i>,<i>N</i>-Dimethylaminodiboranates as Possible Chemical Vapor Deposition Precursors

Dunbar, Andrew C.; Girolami, Gregory S.

doi:10.1021/ic402237b

Cited by 18 publications

(21 citation statements)

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“…Each xantphos′ ligand is bound in a κ 2 -P,P configuration and the central Rh 2 P 2 unit adopts a butterfly geometry. [ 10 ] A [H 3 BNMe 2 BH 3 ] − ion[ 11 , 12 ] bridges the two metal centers. The B–H hydrogen atoms were located, and each BH 3 group is bound η 2 to the metal center (Rh–B 2.234(5), 2.229(5) Å).…”

mentioning

confidence: 99%

PC‐Activated Bimetallic Rhodium Xantphos Complexes: Formation and Catalytic Dehydrocoupling of Amine–Boranes

Johnson

Weller

2015

Angew Chem Int Ed

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{Rh(xantphos)}-based phosphido dimers form by P–C activation of xantphos (4,5-bis(diphenylphosphino)-9,9-dimethylxanthene) in the presence of amine–boranes. These dimers are active dehydrocoupling catalysts, forming polymeric [H2BNMeH]n from H3B⋅NMeH2 and dimeric [H2BNMe2]2 from H3B⋅NMe2H at low catalyst loadings (0.1 mol %). Mechanistic investigations support a dimeric active species, suggesting that bimetallic catalysis may be possible in amine–borane dehydropolymerization.

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confidence: 99%

PC‐Activated Bimetallic Rhodium Xantphos Complexes: Formation and Catalytic Dehydrocoupling of Amine–Boranes

Johnson

Weller

2015

Angew Chem Int Ed

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“…gous calcium complex, in which the outer oxygen atoms of the diglyme ligand occupy the two axial sites. 39 The average Sr−O distance to the central oxygen atom in 5 is 2.579(2) Å, whereas those to the outer oxygen atoms are slightly longer at 2.626( 2 The two 12-crown-4 ligands in 7 almost completely encapsulate the strontium atom and leave very little room in the coordination sphere for additional ligands (Figure 7). S1).…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Synthesis and Characterization of Strontium N,N-Dimethylaminodiboranates as Possible Chemical Vapor Deposition Precursors

Dunbar

Girolami

2020

Inorg. Chem.

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The reaction of SrBr 2 with 2 equiv of sodium N,N-dimethylaminodiboranate (DMADB; Na(H 3 BNMe 2 BH 3 )) in Et 2 O at 0 °C followed by crystallization and drying under vacuum gives the unsolvated strontium compound Sr(H 3 BNMe 2 BH 3 ) 2 (1). Before the vacuumdrying step, the colorless crystals obtained by crystallization consist of the diethyl ether adduct Sr(H 3 BNMe 2 BH 3 ) 2 (Et 2 O) 2 (2). If the reaction of SrBr 2 with 2 equiv of Na(H 3 BNMe 2 BH 3 ) is carried out in the more strongly coordinating solvent thf, the solvate Sr(H 3 BNMe 2 BH 3 ) 2 (thf) 3 (3) is obtained. Treating the thf adduct 3 with 1,2-dimethoxyethane (dme), bis(2-methoxyethyl) ether (diglyme), or N,N,N′,N′-tetramethylethylenediamine (tmeda) in thf affords the new compounds Sr(H 3 BNMe 2 BH 3 ) 2 (dme) 2 (4), Sr(H 3 BNMe 2 BH 3 ) 2 (diglyme) (5), and Sr(H 3 BNMe 2 BH 3 ) 2 (tmeda) (6), respectively, in greater than 60% yields. Treatment of 3 with 2 equiv of the crown ether 12crown-4 affords the charge-separated salt [Sr(H 3 BNMe 2 BH 3 )(12-crown-4) 2 ][H 3 BNMe 2 BH 3 ] (7). Crystal structures of all the Lewis base adducts are described. Compounds 2−6 all possess chelating κ 2 -BH 3 NMe 2 BH 3 -κ 2 groups, in which two hydrogen atoms on each boron center are bound to strontium. Compound 6 is dinuclear because each metal atom is also coordinated to one hydrogen atom on a BH 3 NMe 2 BH 3 − ligand that chelates to the neighboring metal center. Compound 7 possesses an unusual κ 1 -BH 3 NMe 2 BH 3 − group owing to the near-complete encapsulation of the Sr atom by two 12-crown-4 molecules; the other BH 3 NMe 2 BH 3 − anion is a charge-separated counterion. When they are heated, the diglyme and tmeda compounds 5 and 6 melt without decomposition and can be sublimed readily under reduced pressure (1 Torr) at 120 °C. The diglyme and tmeda adducts are some of the most volatile strontium compounds known and are promising candidates as CVD precursors for the growth of strontium-containing thin films.

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“…Several other types of volatile Ca II complexes (fluoroalkoxides, fluorinated β‐diketonates, β‐diketiminates, and aminodiboranates) have been reported, but not employed in ALD reactions. To complement the currently known Ca ALD precursors, we chose to explore the amidinate ligand system.…”

Section: Methodsmentioning

confidence: 92%

Synthesis of Calcium(II) Amidinate Precursors for Atomic Layer Deposition through a Redox Reaction between Calcium and Amidines

et al. 2016

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We have prepared two new CaII amidinates, which comprise a new class of ALD precursors. The syntheses proceed by a direct reaction between Ca metal and the amidine ligands in the presence of ammonia. Bis(N,N′‐diisopropylformamidinato)calcium(II) (1) and bis(N,N′‐diisopropylacetamidinato)calcium(II) (2) adopt dimeric structures in solution and in the solid state. X‐ray crystallography revealed asymmetry in one of the bridging ligands to afford the structure [(η2‐L)Ca(μ‐η2:η2‐L)(μ‐η2:η1‐L)Ca(η2‐L)]. These amidinate complexes showed unprecedentedly high volatility as compared to the widely employed and commercially available CaII precursor, [Ca3(tmhd)6]. In CaS ALD with 1 and H2S, the ALD window was approximately two times wider and lower in temperature by about 150 °C than previously reported with [Ca3(tmhd)6] and H2S. Complexes 1 and 2, with their excellent volatility and thermal stability (up to at least 350 °C), are the first homoleptic CaII amidinates suitable for use as ALD precursors.

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Synthesis and Characterization of Calcium N,N-Dimethylaminodiboranates as Possible Chemical Vapor Deposition Precursors

Cited by 18 publications

References 50 publications

PC‐Activated Bimetallic Rhodium Xantphos Complexes: Formation and Catalytic Dehydrocoupling of Amine–Boranes

PC‐Activated Bimetallic Rhodium Xantphos Complexes: Formation and Catalytic Dehydrocoupling of Amine–Boranes

Synthesis and Characterization of Strontium N,N-Dimethylaminodiboranates as Possible Chemical Vapor Deposition Precursors

Synthesis of Calcium(II) Amidinate Precursors for Atomic Layer Deposition through a Redox Reaction between Calcium and Amidines

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