115546-66-2

Basic information

• Product Name: tazobactam acid
• CAS NO: 115546-66-2
• Molecular Weight: 300.295
• Mol File: 115546-66-2.mol
• Article Data: 17

Chemical Properties

• CAS DataBase Reference: tazobactam acid(CAS DataBase Reference)
• NIST Chemistry Reference: tazobactam acid(115546-66-2)
• EPA Substance Registry System: tazobactam acid(115546-66-2)

Safety Data

• Hazardous Substances Data: 115546-66-2(Hazardous Substances Data)

Upstream product

• 79703-02-9 6α-bromopenicillan-3α-carboxylic acid-1β-oxide 
• 80078-08-6 6α-bromopenam-3α-carboxylic acid benzyl ester-1β-oxide 
• 76911-22-3 6,6-dihydropenam-3α-carboxylic acid benzyl ester-1β-oxide 
• 24138-28-1 6-bromopenicillanic acid 
• 80353-26-0 6α-bromopenicillan-3α-carboxylic acid diphenylmethyl ester-1β-oxide 
• 74189-25-6 diphenylmethyl 6α-bromopenicillanate 
• 87-53-6 penicillanic acid 
• 551-16-6 6-Aminopenicillanic Acid 
• 793625-09-9 C₈H₁₁NO₄S 
• 78378-75-3 2β-acetoxymethyl-2α-methyl-(5R)penam-3α-carboxylic acid 

Downstream Products

• 89785-84-2 tazobactam sodium 
• 59703-84-3 sodium piperacillin 

Relevant articles and documents

Application of Continuous Flow in Tazobactam Synthesis

Tazobactam is a β-lactamase inhibitor. In this work, a combination of continuous flow and batch experiments for the synthesis of tazobactam has been developed. The first three steps and the preparation of the peroxyacetic acid are continuously carried out in the microreactors, which improves the procedure safety and efficiency. There is also a final step of the deprotection reaction in the microreactor, which can increase the yield and reduce the formation of impurities. Under optimized process conditions, the total yield of the target product reached 37.09% (30.93% in batch). The continuous flow method not only greatly reduces the reaction time but also significantly improves procedure safety and increases the yield.

2 β - Azidomethyl penicillanic acid dibenzoate. Preparation method of tazobactam intermediate and tazobactam

The invention provides a preparation method of 2 β -azipenicillanic acid dibenzoate, tazobactam intermediate and tazobactam. The preparation method comprises the following steps: carrying out free radical reaction in a solvent by using a reaction raw material comprising a double-sulfur open-loop compound, a stacked nitrogen source and an oxidant to obtain a product system comprising 2 β - azidomethyl penicillanic acid dibenzoate. By radical addition of the carbon-carbon double bonds of the double-sulfur ring-opening compound through the azide free radical, high-efficiency and high-selectivity synthesis of the disulphide ring-opening compound directly to 2 β - azimaapenem naphthenate is successfully realized through intramolecular radical substitution. Further, 2 β - azidomethyl penicillanic acid dibenzoate is taken as a key intermediate for synthesizing tazobactam, the yield of tazobactam is improved, and the cost is reduced.

Self-Assembled Polymeric Pyridine Copper Catalysts for Huisgen Cycloaddition with Alkynes and Acetylene Gas: Application in Synthesis of Tazobactam

Novel convoluted polymeric pyridine copper(I) catalysts PVPy-Cu were developed for the Huisgen cyclization of organic azides using alkynes and acetylene gas. They were readily prepared based on our molecular convolution of CuSO4·5H2O and poly(4-vinylpyridine) (PVPy) in the presence of sodium ascorbate with and without various sodium salts in water. Their structural investigation was conducted using XANES and EXAFS, as well as DFT calculation. The Huisgen cycloaddition of a variety of alkynes and acetylene gas was carried out using 100 to 800 mol ppm of Cu of PVPy-Cu in water, whose turnover numbers reached up to 10 000. This catalytic system was applied to the synthesis of tazobactam, which is an inhibitor of bacterial β-lactamases.