The dissertation is divided into two parts : synthesis of trisubstituted furans (part I) and investigation of the reaction of the α,β-unsaturated imines and alkyl phosphine reagents (part II). Part I: 　　Multi-substituted furans have important application in organic synthesis. A facile preparation of trisubstituted furans stating from the Michael acceptors 76, tributylphosphine, triethylamine and acyl chlorides 62, is realized according to our protocol. Various highly functional furans can be prepared in very mild condition (rt) within 10 min to 40 h in moderate to high yields (24-93%). The reaction mechanism is proposed to undergo the Michael reaction of Bu3P and 76 followed by acylation with 62, deprotonation of the corresponding intermediate 81, and finally an intramolecular Wittig reaction of 79. 　　We also try to apply the similiar concept (the key step: Intramolecular Wittig reaction) in the synthesis of multi-substituted pyrroles. The reaction of the α,β-unsaturated imine (163b) to react with Bu3P, PhCOCl, and Et3N takes place at 80 oC for 19 h, leading to the unexpected product 165ba. The result of 165ba is not reproducible, probably due to the instability of the reaction intermediate. The reaction mechanism is proposed to undergo the 1,4-addition reaction of Bu3P toward 163b followed by acylation with 62, deprotonation of the corresponding intermediate 171, and then acyl substitution to furnish the intermediate 173. The elimination of Bu3P from the intermediate 173 proceeds to provide the intermediate 174, which then undergoes deprotonation, electronic-rearrangement, 1,2-addition, and protonation to give the intermediate 177ba. Finally, 165ba is afforded via the tautomerization of 177ba.