BORANE-DIMETHYLAMINE

Borane-dimethylamine can be used as a catalyst in the production of polymers, enhancing the efficiency of polymerization processes.
Borane-dimethylamine's unique properties allow for the development of advanced materials with tailored characteristics, making it a preferred choice for professionals in the chemical industry.
Borane-dimethylamine is used as a reducing agent in NANO3D’s electroless Co(Ni)WBP plating process engineered for plating cobalt (nickel) patterns, barrier/seed and capping layers on wide varieties of substrates including semiconductors, ceramics, glass, polymers et al.

CAS Number: 74-94-2
EC Number: 200-823-7
MDL number: MFCD00051068
Linear Formula: (CH3)2NH · BH3
Molecular Formula: C2H7BN
Molecular weight: 58.919

SYNONYMS:
Dimethylamine borane, DMAB, (Dimethylamino)borane, Borane dimethylamine complex, Borane, compound with dimethylamine (1:1), N‑Methylmethanamine compound with borane (1:1), Boron, trihydro(N‑methylmethanamine), Dimethylamine borane, DMAB, Borane, compd. with dimethylamine (1:1), Boron, trihydro(N-methylmethanamine)-, RUOMFVPJBOADHA-UHFFFAOYSA-N, Borane, compd. with N-methylmethanamine (1:1), Borane, compd. with dimethylamine (1:1), Boron, (N-methylmethanamine)trihydro-, (T-4)-, Dimethylamine compound with borane (1:1), N-Methylmethanamine compd. with borane (1:1), Boron, trihydro(N-methylmethanamine)-, (T-4)-, Boron, trihydro(N-methylmethanamine)-, (beta-4)-, Dimethylamine, compd. with borane (1:1), Methanamine, N-methyl-, compd. with borane (1:1) (9CI), [ChemIDplus] DMAB, Borane-dimethylamine complex, Borane-dimethylamine, Boron hydride-dimethylamine, Dimethylamine, compd. with BORANE (1:1), [NTP], Dimethylamine, compd. with BH3, Dimethylamine, compd. with Borane, N-Methyl-Methanamine compd. with Borane, Borane, compd. with N-Methylmethanamine, Borane, compd. with Dimethylamine, N-Methyl-methanamine, Boron Complex, (Dimethylamine)trihydroboron, Dimethylamine compound with Borane, Dimethylamine-borane, NSC 10218, NSC 53321, ((CH3)2NH)(BH3), Borane, compd. with dimethylamine (1:1), borane,compd.withdimethylamine(1:1), Boron, (N-methylmethanamine)trihydro-, (T-4)-, Boron, trihydro(N-methylmethanamine)-, (T-4)-, Dimethylamine compound with borane (1:1), Dimethylamine, compd. with bo, Dimethylamine, compd. with BH3, Dimethylamine, compd. with Borane, N-Methyl-Methanamine compd. with Borane, Borane, compd. with N-Methylmethanamine, Borane, compd. with Dimethylamine, N-Methyl-methanamine, Boron Complex, (Dimethylamine)trihydroboron, DMAB, Dimethylaminoboran, Dimethylaminoborane, Dimethylamine borane, Dimethylamine-Borane, DimethylamineBorane(DMAB), boron, N-methylmethanamine, Borane dimethylamine complex, dimethylamine, compd. with borane, borane, compd. with dimethylamine, trihydrido(N-methylmethanamine)boron, BORANE-DIMETHYLAMINECOMPLEX(DIMETHYLAMINE-BORANE)

Borane-dimethylamine is a chemical compound with the formula (CH3)2NH⋅BH3.
Borane-dimethylamine appears as a white crystalline solid and has an amine-like odor.
Borane-dimethylamine is notable for its high hydrogen content, making it a candidate for use in hydrogen storage and fuel cell applications.

Borane-dimethylamine acts as a reducing agent and is utilized in various
Borane-dimethylamine is a white to off-white solid.
Borane-dimethylamine is a white crystalline solid (mp ~36 °C), water-soluble, used primarily as a selective reducing reagent in organic synthesis.

Borane-dimethylamine is used in a nickel-catalyzed reduction of electron-deficient aryl tosylates.
Borane-dimethylamine also serves as a reducing agent in electrolytic deposition of metals, alloys, semiconductors and insulators.
Borane-dimethylamine is one of numerous organometallic compounds manufactured.

Organometallics are useful reagents, catalysts, and precursor materials with applications in thin film deposition, industrial chemistry, pharmaceuticals, LED manufacturing, and others.
Borane-dimethylamine is a reagent that is used in a Ni-catalyzed reduction of electron-deficient aryl tosylates.

Borane-dimethylamine exists as a coordination compound formed by the association of dimethylamine (C₂H₆NH) with borane (BH₃).
Borane-dimethylamine has found utility across various scientific fields due to its unique properties.
Borane-dimethylamine has been extensively studied as a reducing agent and a catalyst in organic synthesis.

Borane-dimethylamine demonstrates remarkable reactivity towards a wide range of functional groups, facilitating selective reductions and transformations in complex organic molecules.
Borane-dimethylamine’s ability to donate hydride ions makes it particularly useful in the reduction of carbonyl compounds, such as ketones and aldehydes.

Additionally, Borane-dimethylamine has been employed in the preparation of boron-containing compounds and as a reagent in the synthesis of boron-based polymers and materials.
Borane-dimethylamine serves as a precursor in the formation of boron nitride and boron carbide, which have diverse applications in the fields of electronics, ceramics, and materials science.

The mechanism of action of the Borane-dimethylamine lies in its ability to donate hydride ions.
This donation occurs through the interaction of the BH₃ moiety with the electron-rich functional groups of organic molecules.

Borane-dimethylamine forms a coordinate covalent bond with the substrate, resulting in the transfer of a hydride ion and subsequent reduction of the organic compound.
The dimethylamine component in Borane-dimethylamine plays a role in stabilizing the borane moiety and enhancing its reactivity.

Borane-dimethylamine is a white crystalline solid.
Borane-dimethylamine is for commercial use only and strictly NOT for human or animal consumption.
Borane-dimethylamine is a versatile chemical compound known for its unique properties and applications in various fields.

USES and APPLICATIONS of BORANE-DIMETHYLAMINE:
Borane-dimethylamine is used as a reducing agent in NANO3D’s electroless Co(Ni)WBP plating process engineered for plating cobalt (nickel) patterns, barrier/seed and capping layers on wide varieties of substrates including semiconductors, ceramics, glass, polymers et al.
NANO3D’s Electroless Co(Ni)WBP can be plated with sub-5 μm resolution when used in conjunction with NANO3D’s Photopatternable Catalytic Resist and NANO3D’s Electroless Cobalt (Nickel)-Tungsten-Boron-Phosphorus Plating.

Electroless Co(Ni)WBP can also be plated selectively and without activation on copper lines to enhance electromigration resistance.
The formulation of NANO3D’s Electroless Co(Ni)WBP Plating solution provides excellent throwing power and barrier properties to copper while improving its electromigration resistance.

Borane-dimethylamine is used as a hydroborating agent, in the synthesis of tertiary alcohols containing methyl groups.
They usually undergo dehydrocoupling via catalytic reactions first.
Not a dangerous good if item is equal to or less than 1g/ml and there is less than 100g/ml in the package.

Borane-dimethylamine serves as an effective reducing agent and is widely utilized in organic synthesis, particularly in the preparation of amines and other nitrogen-containing compounds.
Its ability to facilitate hydride transfer makes Borane-dimethylamine invaluable in the synthesis of pharmaceuticals and agrochemicals, where precise control over chemical reactions is crucial.

Researchers appreciate Borane-dimethylamine's stability and ease of handling, which contribute to safer laboratory practices.
In addition to its role in organic synthesis, Borane-dimethylamine is also employed in polymer chemistry and materials science.
Borane-dimethylamine can be used as a catalyst in the production of polymers, enhancing the efficiency of polymerization processes.

Borane-dimethylamine's unique properties allow for the development of advanced materials with tailored characteristics, making it a preferred choice for professionals in the chemical industry.
With its broad range of applications and benefits, Borane-dimethylamine stands out as a key reagent for researchers and industry professionals alike.

Borane-dimethylamine is used as a reducing agent in organic and inorganic chemistry and as a reducing agent in electrolysis deposition of metals, alloys, semiconductors, and insulators.
Borane-dimethylamine has diverse applications across various fields.

Fuel Cells: Borane-dimethylamine is investigated as a potential fuel for direct fuel cells due to its ability to release hydrogen upon oxidation, which is crucial for energy generation.
Reducing Agent: Borane-dimethylamine is widely used as a reducing agent in organic synthesis, particularly in the reduction of metal ions and in catalytic processes involving precious metals.

Chemical Synthesis: Borane-dimethylamine is employed in the synthesis of complex organic molecules through various catalytic pathways, including formylation reactions.
Borane-dimethylamine is a white crystalline solid (mp ~36 °C), water-soluble, used primarily as a selective reducing reagent in organic synthesis.

Proper storage under inert gas, use of PPE, and avoidance of moisture and ignition sources are essential.
Borane-dimethylamine is a reagent that is used in a Ni-catalyzed reduction of electron-deficient aryl tosylates.
Borane-dimethylamine reduces aldehydes and ketones to alcohols.

Borane-dimethylamine reduces Schiff bases in acetic acid.
Borane-dimethylamine reduces quinones to hydroquinones.
Borane-dimethylamine is used in the preparation of xanthene, which is a useful pharmaceutical intermediate.

Borane-dimethylamine is used in combination with titanium (IV) chloride, aromatic aldehydes, and ketones, which are deoxygenated to the arylalkane.
Borane-dimethylamine is used for production of thin films of Ni, Co, Mo, Cu, Ag, Au, Zn, and other metals in modern electronics.

Borane-dimethylamine is used in nickel-boron plating in the production of high-temperature PCBs (printed circuit boards).
Borane-dimethylamine is used in nickel-plated contacts in connectors as a substitute for gold coatings.
Borane-dimethylamine is used ceramic metallization for the production of solder terminals.

Borane-dimethylamine is used deposition of amorphous nickel onto diskettes.
Borane-dimethylamine is used production of solderable ohmic contacts in semiconductor solar energy converters.
Borane-dimethylamine is used for preparation of lithium aminoborohydrides, which are air-stable and non-pyrophoric reducing agents.

-Hydrogen Storage uses of Borane-dimethylamine:
One of the most actively explored aspects of Borane-dimethylamine research is its potential as a hydrogen storage material.

Borane-dimethylamine possesses a high gravimetric hydrogen density (around 6.9%), meaning it can store a significant amount of hydrogen per unit mass, making it a contender for future hydrogen-based energy systems.

Additionally, Borane-dimethylamine is relatively stable and releases hydrogen under specific conditions using suitable catalysts, making it a potentially viable option for on-board hydrogen storage in fuel cell vehicles.

-Fuel Cells Use of Borane-dimethylamine:
Borane-dimethylamine is also being investigated as a potential fuel source for fuel cells.

Research suggests that Borane-dimethylamine can be electrochemically oxidized efficiently on specific electrode materials, generating electricity through a clean and sustainable process.
This holds promise for developing next-generation fuel cells with improved performance and reduced environmental impact.

-Organic Synthesis uses of Borane-dimethylamine:
Beyond energy applications, Borane-dimethylamine finds use as a reducing agent in various organic synthesis reactions.
Its ability to donate electrons makes Borane-dimethylamine valuable for selectively modifying different functional groups in organic molecules, enabling the production of complex and valuable chemicals.

-Other Research Areas
Ongoing research explores the potential of Borane-dimethylamine in other scientific fields, including:

*Borane-based materials: 
Borane-dimethylamineserves as a precursor for synthesizing other borane-based materials with unique properties, potentially useful in various applications like catalysis and drug delivery.

*Biomedical research: 
Although still in early stages, some studies investigate the potential of Borane-dimethylamine for specific biomedical applications, requiring further research and evaluation to fully understand its safety and efficacy.

REACTIVITY & CHARACTERIZATION of BORANE-DIMETHYLAMINE:
*Lewis adduct: 
BH₃ binds dimethylamine to form a stable complex.
Borane is a strong Lewis acid.

*Reactivity: 
Borane-dimethylamine serves as a mild reducing agent — used in reductions of nitroarenes, tosylates, carbonyls, nitriles, epoxides, etc.