Author/Authors :
baba, yassir filali university sidi mohammed ben abdallah - faculty of science and technology - laboratory of applied organic chemistry, Fez, Morocco , rodi, youssef kandri university sidi mohammed ben abdallah - faculty of science and technology - laboratory of applied organic chemistry, Fez, Morocco , sebbar, nada kheira ministère de la santé - laboratoire national de contrôle des médicaments, direction du médicament et de la pharmacie, Rabat, Morocco , sebbar, nada kheira mohammed v university in rabat - faculté des sciences, urac 21, pôle de compétences pharmacochimie, centre de recherche des sciences des médicaments - laboratoire de chimie organique hétérocyclique, Rabat, Morocco , hayani, sonia university sidi mohammed ben abdallah - faculty of science and technology - laboratory of applied organic chemistry, Fez, Morocco , misbahi, khalid university sidi mohammed ben abdallah - faculty of science and technology - laboratory of applied organic chemistry, Fez, Morocco , chahdi, fouad ouazzani university sidi mohammed ben abdallah - faculty of science and technology - laboratory of applied organic chemistry, Fez, Morocco , essassi, el mokhtar mohammed v university in rabat - faculté des sciences, urac 21, pôle de compétences pharmacochimie, centre de recherche des sciences des médicaments - laboratoire de chimie organique hétérocyclique, Rabat, Morocco , essassi, el mokhtar rabat design center - moroccan foundation for advanced science, innovation and research (mascir), Rabat, morocco
Abstract :
Quinoline and derivatives are widely used as precursors in the synthesis of new heterocyclic systems. In this revue, we report several methods used for the preparation of these heterocyclic compounds. Their reactivity’s and biological proprieties were also presented.
NaturalLanguageKeyword :
Quinoline , synthesis , reactivity , condensation , biologic activity
