Any organic compound that has some degree of volatility can be called a VOC. Only a fraction of them possesses an functional group that would participate in hydrolysis, on top of it the typical reaction scheme will be different for each class of functional groups. This makes your question a little bit weird as there is no "hydrolysis reaction for VOC's" .

If you are just looking for the scheme for each individual group, consult an organic chemistry textbook or just google the group in question together with ' hydrolysis'. Otherwise rethink your problem and rephrase your question.

Good luck

Sumit,

Your question is not clear.

Do you want to know about general hydrolysis of functional VOCs like esters, then consult a textbook in organic chemistry as already mentioned by Kris Wolfs.

However, if your research is dealing with VOCs in the indoor climate, it is a different matter, but the basic chemistry is the same. Hydrolysis of VOCs in construction products, e.g. flooring materials, is a very common indoor air quality problem. The most common one is hydrolysis of DEHP in PVC tiles to the free phthalic acid and the odorous alcohol 2-ethylhexanol under alkaline conditions, when in some contact with the concrete, etc.

You can read more about this in:

Uhde E and Salthammer T (2007) Impact of Reaction Products From Building Materials and Furnishings on Indoor Air Quality - A Review of Recent Advances in Indoor Chemistry. Atmos Environ 41:3111-3128.

Kind regards,

Peder

Hi Sumit,

Please refer to our below publication, it has also copied several references useful for you.

Perera G.B.S., Manthilake M.M.I.D., Sugathapala A.G.T., Huy L.N., Lee S.C., Asian Journal of Atmospheric Environment, 2019. NOX-VOC-O3 Sensitivity in Urban Environments of Sri Lanka, Vol. 13, No. 1, pp. 62-72, March 2019, doi: https://doi.org/10.5572/ajae.2019.13.1.062, ISSN (Online) 2287-1160, ISSN (Print) 1976-6912