Fadhil Jasim scite author profile

The TG, DTG and DTA curves of curcumin(I) have been recorded in static air and inert dynamic argon atmosphere over the range between ambient temperature and 600~176 using a Netzsch thermal analyser STA 429. Careful examination of these curves reveals appreciable differences in the behaviour of I under either atmospheres, which are easily recognized by comparing the profiles of their thermal curves, particularly in the melting point, thermal stability of intermediates, percent weight loss and exothermieity of the chemical processes. Gaschromatographic analysis of volatile pyrolysates trapped during thermal analysis indicates the formation of (CH3)2CO, CH3COH and C6HsOCH2COOH (phenyl oxyacetie acid). However, in static air CO2 and H20 were identified as well. X-ray diffractometry reveals the formation of amorphous carbon as a final product in argon and a mixture of amorphous carbon and graphite in air. It seems that the relatively high mass of argon plays an important role in the reactions and stability of intermediates. In either atmospheres curcumin is thermally stable up to 249~ with m.p. of 176.4~176The unique shape of the DTA curve of I could be used for its identification.

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A novel and rapid method for the spectrofluorometric determination of curcumin in curcumin spices and flavors

Jasim

Ali

1992

Microchemical Journal

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Measurements of some spectrophotometric parameters of curcumin in 12 polar and nonpolar organic solvents

Jasim

Ali

1989

Microchemical Journal

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On the thermal decomposition of alkali persulfates by derivatograph

Barboott

Jasim

1976

Thermochimica Acta

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Fadhil Jasim

A novel method for the spectrophotometric determination of curcumin and its application to curcumin spices

Some observations on the thermal behaviour of curcumin under air and argon atmospheres

A novel and rapid method for the spectrofluorometric determination of curcumin in curcumin spices and flavors

Measurements of some spectrophotometric parameters of curcumin in 12 polar and nonpolar organic solvents

On the thermal decomposition of alkali persulfates by derivatograph

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