Which one between o-nitrophenol and p-nitrophenol is more soluble in benzene? And what is the reason? If the solvent had been polar, hydrogen bonding would have provided a lot of explanation, but what about non polar solvents?

  • $\begingroup$ Same thing$ $... $\endgroup$
    – Mithoron
    Commented Jul 23, 2020 at 16:52

2 Answers 2


It turns out that the opposite of what happens in polar solvents takes place when a non-polar solvent is used. At the same temperature, o-nitrophenol is more soluble in benzene than it's m and p isomers.

Sidgwick et al.1 did a study of this and obtained the following results. (Note that the solvent they used was toluene and not benzene, but they are similar enough that the same principles would apply.)

solubility of nitrophenols in toluene

EDIT: The original version of this answer wrongly interpreted the graph and stated that o-nitrophenol would be less soluble in benzene than the other isomers. That was an error on my part. Thank you to Mathew Mahindaratne for pointing it out!


  1. Nevil Vincent Sidgwick, William James Spurrell, Thomas Ellis Davies, “CXXXII.—The Solubility of the Nitrophenols and Other Isomeric Disubstitution Products of Benzene,” J. Chem. Soc., Trans. 1915, 107, 1202–1213. doi:10.1039/CT9150701202.
  • $\begingroup$ Good reply. But yours and 2nd one contradict each other?! $\endgroup$ Commented Jul 24, 2020 at 11:36
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    $\begingroup$ @Aniruddha Deb: Please see my comment to OP's question under y answer. According to chart, solubility should be higher for 2-nitrophenol than that of other two at all temperatures. Accordingly, would you correct your answer. $\endgroup$ Commented Jul 24, 2020 at 15:37
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    $\begingroup$ @MathewMahindaratne I edited the answer. Thank you for pointing it out :) $\endgroup$ Commented Jul 24, 2020 at 17:15

The nitrophenols have completely different physical behavior based on the position of nitro group:

$$ \begin{array}{c|ccc} \hline \text{Compound} & \text{Melting point} & \text{Boiling point} & \text{Water solubility at } \pu{25 ^\circ C}\\ \hline \text{2-Nitrophenol} & \pu{43-45 ^\circ C} & \pu{215 ^\circ C} & \pu{2 g/L} \\ \text{3-Nitrophenol} & \pu{89-95 ^\circ C} & \pu{278 ^\circ C} & \pu{13.5 g/L} \\ \text{4-Nitrophenol} & \pu{113-114 ^\circ C} & \pu{279 ^\circ C} & \pu{16 g/L} \\ \hline \end{array} $$

This different behavior is due to having intramolecular hydrogen bonding:


Due to these intramolecular H-bonding on 2-nitrophenol, its $\ce{OH}$ group is not readily available to form a hydrogen bond with solvent water. Hence 2-nitrophenol is sparingly soluble in water while 3- and 4-nitrophenol are soluble due to intermolecular H-bonding with water.

Similarly, because 3- and 4-nitrophenols contains much more intermolecular H-bonding than that of 2-nitrophenol, they have large difference in boiling and melting points than that of 2-nitrophenol (need extra energy to break intermolecular H-bonding; The intramolecular H-bonding increases the volatile nature of the molecule comparatively with their isomeric siblings that cannot have intramolecular H-bonding, thus effecting the relevant boiling points).

The intramolecular H-bonding effects oppositely in the solubility in nonpolar solvents such as benzene. Compounds involved in intramolecular H-bonding (kind of chelation) become non-polar (not many interaction forces intermolecularly). As a consequent, these compounds are soluble in nonpolar solvents (oposite to only sparingly soluble in water) whereas their meta and para isomers are less soluble in non-polar solvents but more soluble in water due to intermolecular H-bonding (such as water).

  • $\begingroup$ Good answer but your answer tells that Ortho nitrophenol will be more soluble than para and meta and it contradicts with the first answer!? $\endgroup$ Commented Jul 24, 2020 at 5:17
  • $\begingroup$ Not really. For example, check percent composition at $\pu{40 ^\circ C}$ at all three isomers in @Aniruddha Deb answer. That was about 90% for 2-nitrophenol. To get the same composition, you need to increase the temperature to about $\pu{90 ^\circ C}$ for 3-nitrophenol and $\pu{105 ^\circ C}$ for 4-nitro-isomer. Aniruddha Deb's interpretation is incorrect. $\endgroup$ Commented Jul 24, 2020 at 15:32

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