| Demonstration of Microscale Projection Experiments -
Chemistry en miniature Objective: Electrophilic Aromatic Substitution Peter Keusch |
Safety precautions:
Safety goggles, protective gloves and effective ventilation required. The ethanolic solutions of benzene, phenol and 2-naphthol should be made under a fume hood! Experimental procedure: Three test tubes are set up as shown in the following below.
15 drops of HNO3 are added to the solutions of the aromatics. Results:
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Discussion: · In contrast to benzene, phenol is nitrated by HNO3 (65 %) already at room temperature. The nitrating agent is the nitronium ion (1).  · At a low reaction temperature a mixture of o-nitrophenol (approx. 35 %) and p-nitrophenol (approx. 15 %) is formed (Photo 2: orange solution) (2).  · The significantly high reactivity of phenol compared to that of benzene is caused by the strong activating OH group. The electron donating resonance effect of the hydroxyl group outweighs the weaker electron withdrawing inductive effect. The electron density is higher in the pi-system of phenol then it is in benzene. So the electrophilic aromatic substitution is facilitated. · Like phenol, naphthol also bears one OH group causing an acceleration of the substitution rate. Electrophilic substitution of 1-naphthol occurs at the 2- and 4-position. The hydroxy group in 2-naphthol activates the 1 position (3).  Reference: Rod Beavon Electrophilic substitution - Animation General experimental instructions and index of experiments 
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