Boc-Hydrazide (Tert-Butyl Carbazate) CAS 870-46-2: Properties, Uses & Applications

About This Product:

CAS Number                     : 870-46-2

Molecular Weight           : 132.16

Molecular Formula        : C₅H₁₂N₂O₂

Synonym(s)                     : Hydrazinecarboxylic acid;

1,1-Dimethylethyl ester;

(Tert-Butoxycarbonyl ) hydrazine

tert-Butoxycarbonylhydrazine

Carbazic Acid tert-Butyl Ester

Physical Properties:

Appearance                                      : White waxy solid

Purity                                                    : >98.00% (GC)

Melting Point                                    : 39°C – 42°C

Boiling Point                                      : NA

Storage Temperature                     : Keep in dark place 2 to 8°C

LOD                                                         : NA

Solubility                                             : Soluble in Methanol, MDC

Density                                                 : 1.2023

Moisture content                              : NMT 1.00 %

Boc-Hydrazide (Tert-Butyl Carbazate) CAS 870-46-2, It is a hydrazine derivative with a tert-butyl protective group, used as a stable intermediate in organic synthesis, particularly in the pharmaceutical industry. It appears as a solid or liquid, is soluble in organic solvents like ethanol and acetone, and serves to protect amino groups in peptide synthesis and as a building block for creating hydrazone and other protected nitrogenous intermediates.

Key Uses:

• Pharmaceuticals: A key building block for Active Pharmaceutical Ingredients (APIs), used in synthesizing drugs like Vandetanib and HIV protease inhibitors.
• Peptide Synthesis: Employed in solid-phase peptide synthesis and for determining the optical purity of alpha-amino aldehydes.
• Organic Synthesis: Acts as a protecting group (Boc) for amines and other functionalities, allowing selective reactions in multi-step syntheses.
• Agrochemicals & Dyes: Used as an intermediate in the production of various agrochemicals, dyes, and pigments.
• Analytical Chemistry: Can react with creatinine to help study enzyme activity or kidney function.
• Hydrazone Formation: Condenses with aldehydes to form hydrazones, useful intermediates in various syntheses.

Key Applications:

• Pharmaceuticals:

Intermediate in synthesizing Active Pharmaceutical Ingredients (APIs).

Building block for HIV-1 protease inhibitors.

Used in creating drugs like Vandetanib (an anticancer drug).

Research tool for enzyme inhibitors in cancer, diabetes, and neurological disorders.

• Peptide Synthesis:

Protects amino groups during peptide chain formation, ensuring purity and stability.

• Organic Synthesis:

Forms hydrazones by reacting with aldehydes, serving as intermediates.

Used in palladium-catalyzed cross-coupling reactions.

Precursor for synthesizing sulfonic and carboxylic hydrazides.

• Analytical Chemistry:

Used in determining the optical purity of α-amino aldehydes.

Reacts with creatinine to study enzyme activity or kidney function.

• Agrochemicals & Dyes:

Serves as a key intermediate in their manufacture.