Bamberger Rearrangement
N-phenylhydroxylamines rearrange to give 4-aminophenols with strong aqueous acid.
![Mechanism of Bamberger Rearrangement](https://drive.google.com/thumbnail?id=1EhIplA4mUsJgKCk9gYFe8v615dJUcRgM&sz=w559)
Another Possible Mechanism is given below-
![Mechanism of Bamberger Rearrangement](https://drive.google.com/thumbnail?id=1mQZWJ9IfI5pgAZEEHvPffyEx6dkZdfQR&sz=w697)
![Applications of Bamberger Rearrangement](https://drive.google.com/thumbnail?id=1Qg7aqyOwSc-ym4nf2fYy6FiNOu1LwkYL&sz=w494)
![Applications of Bamberger Rearrangement](https://drive.google.com/thumbnail?id=1jT8B2Dfw90uVqNhxCwi_w8-UyCzm_YOp&sz=w684)
Mechanism of Bamberger Rearrangement
The possible mechanism is given below-Another Possible Mechanism is given below-