1,7-Diazaspiro[3.5]nonan-2-one

95%

Reagent Code: #74896
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CAS Number 1235440-17-1

science Other reagents with same CAS 1235440-17-1

blur_circular Chemical Specifications

scatter_plot Molecular Information
Weight 140.18 g/mol
Formula C₇H₁₂N₂O
badge Registry Numbers
MDL Number MFCD14705692
inventory_2 Storage & Handling
Storage 2-8°C, protected from light, inert gas

description Product Description

This compound is primarily used in the field of medicinal chemistry and drug development. It serves as a key building block in the synthesis of various biologically active molecules, particularly those targeting neurological and psychiatric disorders. Its unique spirocyclic structure makes it valuable in designing compounds with enhanced binding affinity and selectivity for specific receptors in the brain. Additionally, it is employed in the development of protease inhibitors, which are crucial in treating diseases like HIV and hepatitis. Researchers also explore its potential in creating novel antibiotics due to its ability to disrupt bacterial enzyme functions. Its versatility in organic synthesis further extends its application in creating complex molecular architectures for advanced therapeutic agents.

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Size Availability Unit Price Quantity
inventory 250mg
10-20 days ฿11,250.00
inventory 1g
10-20 days ฿26,400.00

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1,7-Diazaspiro[3.5]nonan-2-one
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This compound is primarily used in the field of medicinal chemistry and drug development. It serves as a key building block in the synthesis of various biologically active molecules, particularly those targeting neurological and psychiatric disorders. Its unique spirocyclic structure makes it valuable in designing compounds with enhanced binding affinity and selectivity for specific receptors in the brain. Additionally, it is employed in the development of protease inhibitors, which are crucial in treati

This compound is primarily used in the field of medicinal chemistry and drug development. It serves as a key building block in the synthesis of various biologically active molecules, particularly those targeting neurological and psychiatric disorders. Its unique spirocyclic structure makes it valuable in designing compounds with enhanced binding affinity and selectivity for specific receptors in the brain. Additionally, it is employed in the development of protease inhibitors, which are crucial in treating diseases like HIV and hepatitis. Researchers also explore its potential in creating novel antibiotics due to its ability to disrupt bacterial enzyme functions. Its versatility in organic synthesis further extends its application in creating complex molecular architectures for advanced therapeutic agents.

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