CAS 999-97-3

Hexametildisilazano

Descrição:

Hexametildisilazano (HMDS) é um composto químico com a fórmula (CH₃)₃Si-NH-Si(CH₃)₃. É um líquido incolor e volátil com um odor característico de amina. O HMDS é utilizado principalmente como agente sililante na síntese orgânica e como reagente na preparação de vários compostos que contêm silício. Sua estrutura apresenta dois grupos trimetilsililo ligados a um átomo de nitrogênio, o que contribui para sua reatividade e utilidade na modificação de superfícies, particularmente no campo da cromatografia e ciência dos materiais. O HMDS é conhecido por sua capacidade de melhorar a estabilidade e volatilidade de certos compostos, tornando-o valioso na química analítica. Também é utilizado na indústria de semicondutores para tratamento de superfícies e passivação. Embora o HMDS seja geralmente considerado de baixa toxicidade, deve ser manuseado com cuidado devido à sua inflamabilidade e propriedades irritantes potenciais. Medidas de segurança adequadas, incluindo o uso de equipamentos de proteção individual, são recomendadas ao trabalhar com esta substância.

Fórmula: C₆H₁₉NSi₂

InChI: InChI=1S/C6H19NSi2/c1-8(2,3)7-9(4,5)6/h7H,1-6H3

Chave InChI: InChIKey=FFUAGWLWBBFQJT-UHFFFAOYSA-N

SMILES: N([Si](C)(C)C)[Si](C)(C)C

Sinónimos:

• 1,1,1,3,3,3-Hexamethyldisilazan
• 1,1,1,3,3,3-Hexamethyldisilazane
• 1,1,1,3,3,3-Hexametildisilazano
• 1,1,1-Trimethyl-N-(trimethylsilyl)silanamine
• 12058-1A
• A 166
• A 166 (silazane)
• Bis(trimethylsilyl)amine
• Di(trimethylsilyl)amine
• Disilazane, 1,1,1,3,3,3-hexamethyl-
• Dn-L 69
• Dow Corning 4-2839
• Dynasylan HMDS
• H 0089
• HMDS (silazane)
• Hexamethyldisilazane
• Hexamethyldisilylamine
• Hexamethylsilazane
• Hmd 3
• Hmds
• Hmds 1
• Hmds 3
• Ls 7150
• Nsc 93895
• OAP
• SE 31 (silazane)
• Se 31
• Sih 6110.1
• Silazan HMN
• Sz 31
• Sz 6079
• Tsl 8802
• Tsr 8802
• Z 6079
• [Dimethyl-(trimethylsilylamino)silyl]methane
• Silanamine, 1,1,1-trimethyl-N-(trimethylsilyl)-
• 1,1,1,3,3,3,-HEXAMETHYLDISILA-
• 1,1,1,3,3,3-hexamethyl-disilazan
• hexamethyldisilazane(hmds)
• 1,1,1,3,3,3-Hexamithyl disilazane
• ((CH3)3Si)2NH
• Trimethyl-N-(trimethylsilyl)silanamine
• SILAZANE HMN
• tsl8802
• hexamethyl disilizane
• LABOTEST-BB LT01408762
• 1,1,1-trimethyl-n-(trimethylsilyl)-silanamin

1,1,1,3,3,3-Hexamethyldisilazane

CAS:

• 999-97-3

Fórmula: C₆H₁₉NSi₂

Pureza: >96.0%(GC)

Cor e Forma: Colorless to Almost colorless clear liquid

Peso molecular: 161.40

Hexamethyldisilazane, Electronic grade, 99+%

CAS:

• 999-97-3

Hexamethyldisilazane is used as a solvent in organic synthesis and organometallic chemistry. It is often used as an adhesion promoter for photoresist in photolithography. Further, it is used for the preparation of trimethylsilyl ethers from hydroxy compounds. It is used as an alternative to critical

Fórmula: C₆H₁₉NSi₂

Pureza: 99+%

Cor e Forma: Clear colorless, Liquid

Peso molecular: 161.40

Hexamethyldisilazane, 98+%

CAS:

• 999-97-3

Hexamethyldisilazane is used as a solvent in organic synthesis and organometallic chemistry. It is often used as an adhesion promoter for photoresist in photolithography. Further, it is used for the preparation of trimethylsilyl ethers from hydroxy compounds. It is used as an alternative to critical

Fórmula: C₆H₁₉NSi₂

Pureza: 98+%

Cor e Forma: Liquid, Clear colorless to pale yellow

Peso molecular: 161.40

Hexamethyldisilazane, min. 97%

CAS:

• 999-97-3

Hexamethyldisilazane, min. 97%

Fórmula: (CH₃)₃SiNHSi(CH₃)₃

Pureza: min. 97%

Cor e Forma: colorless liq.

Peso molecular: 161.40

Hexamethyldisilazane

CAS:

• 999-97-3

Fórmula: C₆H₁₉NSi₂

Pureza: (GC) ≥ 98.0%

Cor e Forma: Clear, colourless liquid

Peso molecular: 161.40

Hexamethyldisilazane

CAS:

• 999-97-3

Hexamethyldisilazane

Fórmula: C₆H₁₉NSi₂

Pureza: 98%

Cor e Forma: clear.colourless liquid

Peso molecular: 161.39275g/mol

Hexamethyldisilazane

CAS:

• 999-97-3

S09625 - Hexamethyldisilazane

Fórmula: C₆H₁₉NSi₂

Pureza: 98%

Cor e Forma: Liquid, Clear Liquid

Peso molecular: 161.395

Hexamethyldisilazane

CAS:

• 999-97-3

Fórmula: C₆H₁₉NSi₂

Peso molecular: 161.40

Hexamethyldisilazane

Produto Controlado

CAS:

• 999-97-3

Applications Hexamethyldisilazane is used in the preparation of 5-azacytidine, an antineoplastic drug. Also used in the preparation of β3-AR agonists used in anti-stress formulations.
Not a dangerous good if item is equal to or less than 1g/ml and there is less than 100g/ml in the package
References Vujjini, S. et al.: Org. Proc. Res. Dev., 17, 303 (2013); Xu, F. et al.: Org. Lett., 15, 1342 (2013);

Fórmula: C₆H₁₉NSi₂

Cor e Forma: Neat

Peso molecular: 161.39

1,1,1,3,3,3-HEXAMETHYLDISILAZANE, 99%

CAS:

• 999-97-3

Alkyl Silane - Conventional Surface Bonding
Aliphatic, fluorinated aliphatic or substituted aromatic hydrocarbon substituents are the hydrophobic entities which enable silanes to induce surface hydrophobicity. The organic substitution of the silane must be non-polar. The hydrophobic effect of the organic substitution can be related to the free energy of transfer of hydrocarbon molecules from an aqueous phase to a homogeneous hydrocarbon phase. A successful hydrophobic coating must eliminate or mitigate hydrogen bonding and shield polar surfaces from interaction with water by creating a non-polar interphase. Although silane and silicone derived coatings are in general the most hydrophobic, they maintain a high degree of permeability to water vapor. This allows coatings to breathe and reduce deterioration at the coating interface associated with entrapped water. Since ions are not transported through non-polar silane and silicone coatings, they offer protection to composite structures ranging from pigmented coatings to rebar reinforced concrete. A selection guide for hydrophobic silanes can be found on pages 22-31 of the Hydrophobicity, Hydrophilicity and Silane Surface Modification brochure.
Silane Cross-Coupling Agent
The cross-coupling reaction is a highly useful methodology for the formation of carbon-carbon bonds. It involves two reagents, with one typically being a suitable organometallic reagent - the nucleophile - and the other a suitable organic substrate, normally an unsaturated halide, tosylate or similar - the electrophile.
Trimethylsilyl Blocking Agent
Used as a protecting group for reactive hydrogens in alcohols, amines, thiols, and carboxylic acids. Organosilanes are hydrogen-like, can be introduced in high yield, and can be removed under selective conditions. They are stable over a wide range of reaction conditions and can be removed in the presence of other functional groups, including other protecting groups. The tolerance of silylated alcohols to chemical transformations summary is presented in Table 1 of the Silicon-Based Blocking Agents brochure.
ALD Material
Atomic layer deposition (ALD) is a chemically self-limiting deposition technique that is based on the sequential use of a gaseous chemical process. A thin film (as fine as -0.1 Å per cycle) results from repeating the deposition sequence as many times as needed to reach a certain thickness. The major characteristic of the films is the resulting conformality and the controlled deposition manner. Precursor selection is key in ALD processes, namely finding molecules which will have enough reactivity to produce the desired films yet are stable enough to be handled and safely delivered to the reaction chamber.
1,1,1,3,3,3-Hexamethyldisilazane; HMDS; HMDZ; Bis(trimethylsilyl)amine
<5 ppm chlorideStandard grade available, SIH6110.0Viscosity: 0.90 cStΔHcomb: 25,332 kJ/molΔHvap: 34.7 kJ/molDipole moment: 0.37 debyeSurface tension: 18.2 mN/mSpecific wetting surface: 485 m2/gVapor pressure, 50 °: 50 mmpKa: 7.55Photoresist adhesion promoterDielectric constant: 1000 Hz: 2.27Ea, reaction w/SiO2 surface: 73.7 kJ/molVersatile silylation reagentCreates hydrophobic surfacesConverts acid chlorides and alcohols to amines in a three-component reactionReacts with formamide and ketones to form pyrimidinesLithium reagent reacts w/ aryl chlorides or bromides to provide primary anilinesUsed to convert ketones to α-aminophosphonates

Fórmula: C₆H₁₉NSi₂

Pureza: 99%

Cor e Forma: Colourless Liquid

Peso molecular: 161.39

1,1,1,3,3,3-HEXAMETHYLDISILAZANE, 98%

CAS:

• 999-97-3

Alkyl Silane - Conventional Surface Bonding
Aliphatic, fluorinated aliphatic or substituted aromatic hydrocarbon substituents are the hydrophobic entities which enable silanes to induce surface hydrophobicity. The organic substitution of the silane must be non-polar. The hydrophobic effect of the organic substitution can be related to the free energy of transfer of hydrocarbon molecules from an aqueous phase to a homogeneous hydrocarbon phase. A successful hydrophobic coating must eliminate or mitigate hydrogen bonding and shield polar surfaces from interaction with water by creating a non-polar interphase. Although silane and silicone derived coatings are in general the most hydrophobic, they maintain a high degree of permeability to water vapor. This allows coatings to breathe and reduce deterioration at the coating interface associated with entrapped water. Since ions are not transported through non-polar silane and silicone coatings, they offer protection to composite structures ranging from pigmented coatings to rebar reinforced concrete. A selection guide for hydrophobic silanes can be found on pages 22-31 of the Hydrophobicity, Hydrophilicity and Silane Surface Modification brochure.
ALD Material
Atomic layer deposition (ALD) is a chemically self-limiting deposition technique that is based on the sequential use of a gaseous chemical process. A thin film (as fine as -0.1 Å per cycle) results from repeating the deposition sequence as many times as needed to reach a certain thickness. The major characteristic of the films is the resulting conformality and the controlled deposition manner. Precursor selection is key in ALD processes, namely finding molecules which will have enough reactivity to produce the desired films yet are stable enough to be handled and safely delivered to the reaction chamber.
Trimethylsilyl Blocking Agent
Used as a protecting group for reactive hydrogens in alcohols, amines, thiols, and carboxylic acids. Organosilanes are hydrogen-like, can be introduced in high yield, and can be removed under selective conditions. They are stable over a wide range of reaction conditions and can be removed in the presence of other functional groups, including other protecting groups. The tolerance of silylated alcohols to chemical transformations summary is presented in Table 1 of the Silicon-Based Blocking Agents brochure.
Silane Cross-Coupling Agent
The cross-coupling reaction is a highly useful methodology for the formation of carbon-carbon bonds. It involves two reagents, with one typically being a suitable organometallic reagent - the nucleophile - and the other a suitable organic substrate, normally an unsaturated halide, tosylate or similar - the electrophile.
Hexamethyldisilazane; HMDS; HMDZ; Bis(trimethylsilyl)amine
Viscosity: 0.90 cStLow chloride grade available, SIH6110.1ΔHcomb: 25,332 kJ/molΔHvap: 34.7 kJ/molDipole moment: 0.37 debyeSurface tension: 18.2 mN/mSpecific wetting surface: 485 m2/gVapor pressure, 50 °C: 50 mmpKa: 7.55Dielectric constant: 1000 Hz: 2.27Ea, reaction w/SiO2 surface: 73.7 kJ/moleReleases ammonia upon reactionVersatile silylation reagentTreatment of fumed silica renders it hydrophobicBoth trimethylsilyl groups usedConverts acid chlorides and alcohols to amines in a three-component reactionReacts with formamide and ketones to form pyrimidinesSilylations catalyzed by SIT8510.0 and other reagentsNafion SAC-13 has been shown to be a recyclable catalyst for the trimethylsilylation of primary, secondary, and tertiary alcohols in excellent yields and short reaction timesUsed to convert ketones to α-aminophosphonatesLithium reagent reacts with aryl chlorides or bromides to provide anilinesSummary of selective deprotection conditions is provided in Table 7 through Table 20 of the Silicon-Based Blocking Agents brochureExtensive review of silicon based cross-coupling agents: Denmark, S. E. et al. "Organic Reactions, Volume 75" Denmark, S. E. ed., John Wiley and Sons, 233, 2011

Fórmula: C₆H₁₉NSi₂

Pureza: 98%

Cor e Forma: Colourless Liquid

Peso molecular: 161.39

1,1,1,3,3,3-Hexamethyldisilazane (HMDS) pure, 98%

CAS:

• 999-97-3

Fórmula: C₆H₁₉NSi₂

Pureza: min. 98%

Cor e Forma: Clear, Colourless, Liquid

Peso molecular: 161.40