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3,3-Oxetanedimethanamine, also known as 3,3-oxetanediamine, is a chemical compound characterized by its molecular formula C4H8N2O2. It is a highly reactive heterocyclic amine that features two amino groups and one oxygen atom within a five-membered ring structure. This unique configuration and reactivity make it a promising candidate for use as a precursor in the synthesis of various pharmaceuticals and organic intermediates. Furthermore, it can be employed in organic chemistry research and as a building block for the production of specialized chemical compounds. Due to its reactivity and potential for hazardous reactions, it is essential to adhere to proper safety precautions and handling procedures when working with 3,3-oxetanedimethanamine.

23500-57-4

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23500-57-4 Usage

Uses

Used in Pharmaceutical Synthesis:
3,3-Oxetanedimethanamine is used as a precursor in the pharmaceutical industry for the synthesis of various drugs and medicinal compounds. Its unique structure and reactivity allow for the creation of a wide range of pharmaceuticals with diverse therapeutic applications.
Used in Organic Intermediates Production:
In the chemical industry, 3,3-oxetanedimethanamine serves as a key intermediate in the production of various organic compounds. Its versatility in chemical reactions enables the synthesis of a broad spectrum of organic intermediates used in different applications.
Used in Organic Chemistry Research:
3,3-Oxetanedimethanamine is utilized in organic chemistry research to explore its reactivity and potential applications in the development of new chemical compounds and reactions. Its unique structure provides a foundation for studying novel chemical pathways and mechanisms.
Used in Specialized Chemical Compounds Production:
3,3-Oxetanedimethanamine is used as a building block in the production of specialized chemical compounds for specific industries, such as the manufacturing of high-performance materials or advanced chemical products. Its unique properties contribute to the development of innovative and high-quality products.

Check Digit Verification of cas no

The CAS Registry Mumber 23500-57-4 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 2,3,5,0 and 0 respectively; the second part has 2 digits, 5 and 7 respectively.
Calculate Digit Verification of CAS Registry Number 23500-57:
(7*2)+(6*3)+(5*5)+(4*0)+(3*0)+(2*5)+(1*7)=74
74 % 10 = 4
So 23500-57-4 is a valid CAS Registry Number.

23500-57-4SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 19, 2017

Revision Date: Aug 19, 2017

1.Identification

1.1 GHS Product identifier

Product name 3,3-Oxetanediyldimethanamine

1.2 Other means of identification

Product number -
Other names 3,3-Bis-aminomethyl-oxetan

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:23500-57-4 SDS

23500-57-4Upstream product

23500-57-4Relevant academic research and scientific papers

Pyrazole as a donor function in neopentane-based tripod ligands RCH2C(CH2pyrazol-l-yl)3-n(CH2PR 2)n - Synthesis and coordination chemistry

Jacobi, Albrecht,Huttner, Gottfried,Winterhalter, Ute,Cunskis, Sven

, p. 675 - 692 (2007/10/03)

The chlorine functions of CH3C(CH2Cl)3, 1, may be replaced by pyrazolyl (pz) as well as imidazolyl (im) residues under the conditions of nucleophilic substitution leading to tripodal ligands CH3C(CH2X)3, X = pz, 2; X = im, 3. As a means of introducing two nitrogen donors and one phosphorus donor into a tripod ligand, substitution of the Br and OMs functions in O(CH2)2C(CH2Br)(CH2OMs), 8, by nitrogen nucleophiles and subsequent cleavage of the oxetane ring by a phosphide nucleophile to give HOCH2C(CH2PPh2)(CH2X)2 has been developed, furnishing 10a (X = pz) and 10d (X = NEt2), respectively. For the synthesis of 10a, K-pz was used as the nucleophile, while 10d was prepared using azide in the initial step, which then had to be transformed into NEt2 in two subsequent steps. The nucleophugic functions of the oxetane 8 undergo selective substitution by K-pz and KPPh2 in THF to produce O(CH2)2C(CH2PPh2)(CH2Pz), 9b. Phosphide cleavage of the oxetane function leads to HOCH2C(CH2PPh2)(CH2PR 2)(CH2PZ), R = Ph, 10b; R = 3,5-Me2(C6H3), 10c. - The tris (pyrazolyl) tripod ligand 2 reacts with (MeCN)3Mo(CO)3 to give 2 · Mo(CO)3(MeCN), 12a, in which only two of the three donor functions are coordinated. Upon reaction with 10a, the same reagent gives 10a · Mo(CO)4, 12b, with one pyrazolyl coordinated and the other involved in intramolecular hydrogen bonding to the CH2OH function (N?H-O distance 280 pm). Blocking of the OH function of 10a by etherification, i.e. to form EtOCH2C(CH2PPh2)(CH2PZ)2, 11, does not dramatically affect the coordination capabilities with 11 Mo(CO)3(MeCN), 12d, being formed upon treatment with (MeCN)3Mo(CO)3. Again only one pz function is coordinated to the metal. Bidentate coordination by two phosphorus donors of 10c is observed in 10c · Mo(CO)3(MeCN), 12d. The dangling arm pz donor function and the CH2OH group are intermolecularly hydrogen-bonded in this case. When the bulky P[3,5-Me2(C6H3)]2 substituent of 10c is replaced by the less sterically demanding PPh2 donor in 10b, η3-coordination is finally observed with the formation of 10b · Mo(CO)3, 13. The coordination capabilities of the new ligands are rationalized in terms of the size (six-, seven-, and eight-membered rings) and interference of the chelate cycles. All compounds have been characterized by the usual analytical and spectroscopic methods, with a complete assignment of the NMR data achieved by a combination of 2D-NMR techniques in some cases. The structures of the coordination compounds have additionally been deduced by X-ray methods.

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