K. V. S. Koteswara Rao scite author profile

K. V. S. Koteswara Rao

4Publications

0Citation Statements Received

56Citation Statements Given

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Kinetics of periodate oxidation of polyoxyethylene – 300, a biodegradable pharmaceutical polymer

Rao¹,

Nadh

2019

ijrps

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Polyoxyethylene Oxide – 300 (POE) is a well-known biodegradable pharmaceutical polymer. In order to understand the stability of POE and to derive the reaction rate law, the title reaction was carried out in aqueous alkaline medium, Reaction was found to be first order dependent on the concentration oxidant (periodate) and independent of substrate (POE) concentration. A retardation of reaction rate with an increase in hydroxide concentration shows an inverse fractional order in it. Based on the studies of the temperature dependence of reaction, evaluated the activation parameters.

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A Kinetic Study on the Oxidation of Pharmaceutically Significant PEG-400 by Periodate

Rao¹,

Nadh²,

Narasaiah³

2019

Rese. Jour. of Pharm. and Technol.

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Oxidation of Polyethylene Glycol-200 by Potassium Periodate in Alkaline Medium: A Kinetic Study

Rao¹,

Nadh²

2019

RJC

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Periodate Oxidation of Peg–600, an Essential Pharmaceutical Polymer

Rao¹,

Nadh²,

Ratnam³

2019

Int J App Pharm

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Objective: To study the kinetics of periodate oxidation of polyethylene glycol-600 (PEG-600), a familiar non-toxic polymer used in pharmaceutical and other fields of industry. Methods: Reactions were carried out in alkaline medium and measured the kinetics by iodometry. One oxygen atom loss or two electrons transfer was observed per each molecule of periodate i.e., the rate of reaction was measured periodate converts to iodate because the formed iodate species is unable to oxidize the substrate molecules. Results: Based on log (a-x) versus t plots, order w. r. t. oxidant (periodate) is unity. Reactions were found to be independent of substrate (PEG-600) concentration. A decrease in rate with an increase in alkali concentration [OH–] was found and order was inverse fractional. Temperature dependence of reaction rate was studied and then calculated the corresponding Arrhenius parameters. Conclusion: An appropriate rate law was proposed by considering the above experimental results.

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