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Environmental fate & pathways

Phototransformation in water

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Description of key information

Conclusion (direct photodegradation - water):  Direct photolysis will not contribute to the degradation of DINP in the aquatic environment because it does not absorb light at wavelengths >290 nm, i.e., in the range that contribute to this process.

Key value for chemical safety assessment

Additional information

Direct photochemical degradation in water occurs through the absorbance of solar radiation by a chemical substance. If the absorbed energy is high enough, then, in the resultant excited state, the chemical may undergo a transformation. A prerequisite for direct photodegradation is the ability of one or more bonds within a molecule to absorb ultraviolet (UV)/visible light in the 290 to 750 nm range. Light wavelengths longer than 750 nm do not contain sufficient energy to break chemical bonds, and wavelengths below 290 nm are shielded from the earth by the stratospheric ozone layer. An approach to assessing the potential for DINP to undergo direct photochemical degradation is to assume that degradation will occur in proportion to the amount of light wavelengths >290 nm absorbed by DINP molecules (Zepp and Cline, 1977). DINP does not absorb light within a range of 290 to 750 nm. Therefore, this process will not contribute to the degradation of DINP in the environment.